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    </style><link rel="Contents" href="##rfc.toc"><link rel="Author" href="##rfc.authors"><link rel="License" href="##rfc.copyrightnotice"><link rel="Index" href="##rfc.index"><link rel="Chapter" title="1 Introduction" href="##rfc.section.1"><link rel="Chapter" title="2 Conformance" href="##rfc.section.2"><link rel="Chapter" title="3 Terminology and Core Concepts" href="##rfc.section.3"><link rel="Chapter" title="4 Identifiers in HTTP" href="##rfc.section.4"><link rel="Chapter" title="5 Fields" href="##rfc.section.5"><link rel="Chapter" title="6 Message Abstraction" href="##rfc.section.6"><link rel="Chapter" title="7 Routing HTTP Messages" href="##rfc.section.7"><link rel="Chapter" title="8 Representation Data and Metadata" href="##rfc.section.8"><link rel="Chapter" title="9 Methods" href="##rfc.section.9"><link rel="Chapter" title="10 Message Context" href="##rfc.section.10"><link rel="Chapter" title="11 HTTP Authentication" href="##rfc.section.11"><link rel="Chapter" title="12 Content Negotiation" href="##rfc.section.12"><link rel="Chapter" title="13 Conditional Requests" href="##rfc.section.13"><link rel="Chapter" title="14 Range Requests" href="##rfc.section.14"><link rel="Chapter" title="15 Status Codes" href="##rfc.section.15"><link rel="Chapter" title="16 Extending HTTP" href="##rfc.section.16"><link rel="Chapter" title="17 Security Considerations" href="##rfc.section.17"><link rel="Chapter" title="18 IANA Considerations" href="##rfc.section.18"><link rel="Chapter" title="19 References" href="##rfc.section.19"><link rel="Appendix" title="A Collected ABNF" href="##rfc.section.A"><link rel="Appendix" title="B Changes from Previous RFCs" href="##rfc.section.B"><link rel="Appendix" title="Acknowledgements" href="##rfc.section.unnumbered-1"><link rel="Alternate" title="Plain Text Version" href="http://www.ietf.org/rfc/rfc9110.txt"><link rel="Help" title="RFC-Editor&#39;s Status Page" href="https://www.rfc-editor.org/info/rfc9110"><meta name="viewport" content="initial-scale=1"><meta name="generator" content="https://github.com/mnot/RFCBootstrap XSLT vendor: Saxonica http://www.saxonica.com/"><meta name="keywords" content="Hypertext Transfer Protocol, HTTP, HTTP semantics, HTTP content, HTTP method, HTTP status code"><link rel="schema.dcterms" href="http://purl.org/dc/terms/"><meta name="dcterms.creator" content="Fielding, R."><meta name="dcterms.creator" content="Nottingham, M."><meta name="dcterms.creator" content="Reschke, J."><meta name="dcterms.identifier" content="urn:ietf:rfc:9110"><meta name="dcterms.issued" content="2022-06"><meta name="dct.replaces" content="urn:ietf:rfc:2818"><meta name="dct.replaces" content="urn:ietf:rfc:7230"><meta name="dct.replaces" content="urn:ietf:rfc:7231"><meta name="dct.replaces" content="urn:ietf:rfc:7232"><meta name="dct.replaces" content="urn:ietf:rfc:7233"><meta name="dct.replaces" content="urn:ietf:rfc:7235"><meta name="dct.replaces" content="urn:ietf:rfc:7538"><meta name="dct.replaces" content="urn:ietf:rfc:7615"><meta name="dct.replaces" content="urn:ietf:rfc:7694"><meta name="dcterms.abstract" content="The Hypertext Transfer Protocol (HTTP) is a stateless application-level protocol for distributed, collaborative, hypertext information systems. This document describes the overall architecture of HTTP, establishes common terminology, and defines aspects of the protocol that are shared by all versions. In this definition are core protocol elements, extensibility mechanisms, and the &quot;http&quot; and &quot;https&quot; Uniform Resource Identifier (URI) schemes. This document updates RFC 3864 and obsoletes RFCs 2818, 7231, 7232, 7233, 7235, 7538, 7615, 7694, and portions of 7230."><meta name="dcterms.isPartOf" content="urn:issn:2070-1721"><meta name="description" content="The Hypertext Transfer Protocol (HTTP) is a stateless application-level protocol for distributed, collaborative, hypertext information systems. This document describes the overall architecture of HTTP, establishes common terminology, and defines aspects of the protocol that are shared by all versions. In this definition are core protocol elements, extensibility mechanisms, and the &quot;http&quot; and &quot;https&quot; Uniform Resource Identifier (URI) schemes. This document updates RFC 3864 and obsoletes RFCs 2818, 7231, 7232, 7233, 7235, 7538, 7615, 7694, and portions of 7230."></head><body onload="getMeta(9110,&quot;rfc.meta&quot;);"><nav class="navbar navbar-dark bg-dark navbar-expand-lg fixed-top ps-3 pe-3" role="navigation">
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</nav><div class="container" id="top"><div class="row"><div class="col-lg-4 order-last d-none d-lg-block" id="sidebar" role="navigation"><div class="navbar"><div class="navbar-brand"><a href="##top"><strong>RFC </strong>9110</a></div><br clear="all"><div class=""><div class="toc "><ul><li><a href="##rfc.section.1">1.</a>&nbsp;&nbsp;&nbsp;<a href="##introduction">Introduction</a><ul><li><a href="##rfc.section.1.1">1.1.</a>&nbsp;&nbsp;&nbsp;<a href="##purpose">Purpose</a></li><li><a href="##rfc.section.1.2">1.2.</a>&nbsp;&nbsp;&nbsp;<a href="##history.and.evolution">History and Evolution</a></li><li><a href="##rfc.section.1.3">1.3.</a>&nbsp;&nbsp;&nbsp;<a href="##core.semantics">Core Semantics</a></li><li><a href="##rfc.section.1.4">1.4.</a>&nbsp;&nbsp;&nbsp;<a href="##specifications.obsoleted.by.this.document">Specifications Obsoleted by This Document</a></li></ul></li><li><a href="##rfc.section.2">2.</a>&nbsp;&nbsp;&nbsp;<a href="##conformance">Conformance</a><ul><li><a href="##rfc.section.2.1">2.1.</a>&nbsp;&nbsp;&nbsp;<a href="##notation">Syntax Notation</a></li><li><a href="##rfc.section.2.2">2.2.</a>&nbsp;&nbsp;&nbsp;<a href="##requirements.notation">Requirements Notation</a></li><li><a href="##rfc.section.2.3">2.3.</a>&nbsp;&nbsp;&nbsp;<a href="##length.requirements">Length Requirements</a></li><li><a href="##rfc.section.2.4">2.4.</a>&nbsp;&nbsp;&nbsp;<a href="##error.handling">Error Handling</a></li><li><a href="##rfc.section.2.5">2.5.</a>&nbsp;&nbsp;&nbsp;<a href="##protocol.version">Protocol Version</a></li></ul></li><li><a href="##rfc.section.3">3.</a>&nbsp;&nbsp;&nbsp;<a href="##terminology">Terminology and Core Concepts</a><ul><li><a href="##rfc.section.3.1">3.1.</a>&nbsp;&nbsp;&nbsp;<a href="##resources">Resources</a></li><li><a href="##rfc.section.3.2">3.2.</a>&nbsp;&nbsp;&nbsp;<a href="##representations">Representations</a></li><li><a href="##rfc.section.3.3">3.3.</a>&nbsp;&nbsp;&nbsp;<a href="##connections">Connections, Clients, and Servers</a></li><li><a href="##rfc.section.3.4">3.4.</a>&nbsp;&nbsp;&nbsp;<a href="##messages">Messages</a></li><li><a href="##rfc.section.3.5">3.5.</a>&nbsp;&nbsp;&nbsp;<a href="##user.agent">User Agents</a></li><li><a href="##rfc.section.3.6">3.6.</a>&nbsp;&nbsp;&nbsp;<a href="##origin.server">Origin Server</a></li><li><a href="##rfc.section.3.7">3.7.</a>&nbsp;&nbsp;&nbsp;<a href="##intermediaries">Intermediaries</a></li><li><a href="##rfc.section.3.8">3.8.</a>&nbsp;&nbsp;&nbsp;<a href="##caches">Caches</a></li><li><a href="##rfc.section.3.9">3.9.</a>&nbsp;&nbsp;&nbsp;<a href="##example">Example Message Exchange</a></li></ul></li><li><a href="##rfc.section.4">4.</a>&nbsp;&nbsp;&nbsp;<a href="##uri">Identifiers in HTTP</a><ul><li><a href="##rfc.section.4.1">4.1.</a>&nbsp;&nbsp;&nbsp;<a href="##uri.references">URI References</a></li><li><a href="##rfc.section.4.2">4.2.</a>&nbsp;&nbsp;&nbsp;<a href="##uri.schemes">HTTP-Related URI Schemes</a><ul><li><a href="##rfc.section.4.2.1">4.2.1.</a>&nbsp;&nbsp;&nbsp;<a href="##http.uri">http URI Scheme</a></li><li><a href="##rfc.section.4.2.2">4.2.2.</a>&nbsp;&nbsp;&nbsp;<a href="##https.uri">https URI Scheme</a></li><li><a href="##rfc.section.4.2.3">4.2.3.</a>&nbsp;&nbsp;&nbsp;<a href="##uri.comparison">http(s) Normalization and Comparison</a></li><li><a href="##rfc.section.4.2.4">4.2.4.</a>&nbsp;&nbsp;&nbsp;<a href="##http.userinfo">Deprecation of userinfo in http(s) URIs</a></li><li><a href="##rfc.section.4.2.5">4.2.5.</a>&nbsp;&nbsp;&nbsp;<a href="##uri.fragment.identifiers">http(s) References with Fragment Identifiers</a></li></ul></li><li><a href="##rfc.section.4.3">4.3.</a>&nbsp;&nbsp;&nbsp;<a href="##authoritative.access">Authoritative Access</a><ul><li><a href="##rfc.section.4.3.1">4.3.1.</a>&nbsp;&nbsp;&nbsp;<a href="##origin">URI Origin</a></li><li><a href="##rfc.section.4.3.2">4.3.2.</a>&nbsp;&nbsp;&nbsp;<a href="##http.origin">http Origins</a></li><li><a href="##rfc.section.4.3.3">4.3.3.</a>&nbsp;&nbsp;&nbsp;<a href="##https.origin">https Origins</a></li><li><a href="##rfc.section.4.3.4">4.3.4.</a>&nbsp;&nbsp;&nbsp;<a href="##https.verify">https Certificate Verification</a></li><li><a href="##rfc.section.4.3.5">4.3.5.</a>&nbsp;&nbsp;&nbsp;<a href="##https.ip-id">IP-ID Reference Identity</a></li></ul></li></ul></li><li><a href="##rfc.section.5">5.</a>&nbsp;&nbsp;&nbsp;<a href="##fields">Fields</a><ul><li><a href="##rfc.section.5.1">5.1.</a>&nbsp;&nbsp;&nbsp;<a href="##fields.names">Field Names</a></li><li><a href="##rfc.section.5.2">5.2.</a>&nbsp;&nbsp;&nbsp;<a href="##field.lines">Field Lines and Combined Field Value</a></li><li><a href="##rfc.section.5.3">5.3.</a>&nbsp;&nbsp;&nbsp;<a href="##fields.order">Field Order</a></li><li><a href="##rfc.section.5.4">5.4.</a>&nbsp;&nbsp;&nbsp;<a href="##fields.limits">Field Limits</a></li><li><a href="##rfc.section.5.5">5.5.</a>&nbsp;&nbsp;&nbsp;<a href="##fields.values">Field Values</a></li><li><a href="##rfc.section.5.6">5.6.</a>&nbsp;&nbsp;&nbsp;<a href="##fields.components">Common Rules for Defining Field Values</a><ul><li><a href="##rfc.section.5.6.1">5.6.1.</a>&nbsp;&nbsp;&nbsp;<a href="##abnf.extension">Lists (#rule ABNF Extension)</a><ul><li><a href="##rfc.section.5.6.1.1">5.6.1.1.</a>&nbsp;&nbsp;&nbsp;<a href="##abnf.extension.sender">Sender Requirements</a></li><li><a href="##rfc.section.5.6.1.2">5.6.1.2.</a>&nbsp;&nbsp;&nbsp;<a href="##abnf.extension.recipient">Recipient Requirements</a></li></ul></li><li><a href="##rfc.section.5.6.2">5.6.2.</a>&nbsp;&nbsp;&nbsp;<a href="##tokens">Tokens</a></li><li><a href="##rfc.section.5.6.3">5.6.3.</a>&nbsp;&nbsp;&nbsp;<a href="##whitespace">Whitespace</a></li><li><a href="##rfc.section.5.6.4">5.6.4.</a>&nbsp;&nbsp;&nbsp;<a href="##quoted.strings">Quoted Strings</a></li><li><a href="##rfc.section.5.6.5">5.6.5.</a>&nbsp;&nbsp;&nbsp;<a href="##comments">Comments</a></li><li><a href="##rfc.section.5.6.6">5.6.6.</a>&nbsp;&nbsp;&nbsp;<a href="##parameter">Parameters</a></li><li><a href="##rfc.section.5.6.7">5.6.7.</a>&nbsp;&nbsp;&nbsp;<a href="##http.date">Date/Time Formats</a></li></ul></li></ul></li><li><a href="##rfc.section.6">6.</a>&nbsp;&nbsp;&nbsp;<a href="##message.abstraction">Message Abstraction</a><ul><li><a href="##rfc.section.6.1">6.1.</a>&nbsp;&nbsp;&nbsp;<a href="##message.framing">Framing and Completeness</a></li><li><a href="##rfc.section.6.2">6.2.</a>&nbsp;&nbsp;&nbsp;<a href="##message.control.data">Control Data</a></li><li><a href="##rfc.section.6.3">6.3.</a>&nbsp;&nbsp;&nbsp;<a href="##header.fields">Header Fields</a></li><li><a href="##rfc.section.6.4">6.4.</a>&nbsp;&nbsp;&nbsp;<a href="##content">Content</a><ul><li><a href="##rfc.section.6.4.1">6.4.1.</a>&nbsp;&nbsp;&nbsp;<a href="##content.semantics">Content Semantics</a></li><li><a href="##rfc.section.6.4.2">6.4.2.</a>&nbsp;&nbsp;&nbsp;<a href="##identifying.content">Identifying Content</a></li></ul></li><li><a href="##rfc.section.6.5">6.5.</a>&nbsp;&nbsp;&nbsp;<a href="##trailer.fields">Trailer Fields</a><ul><li><a href="##rfc.section.6.5.1">6.5.1.</a>&nbsp;&nbsp;&nbsp;<a href="##trailers.limitations">Limitations on Use of Trailers</a></li><li><a href="##rfc.section.6.5.2">6.5.2.</a>&nbsp;&nbsp;&nbsp;<a href="##trailers.processing">Processing Trailer Fields</a></li></ul></li><li><a href="##rfc.section.6.6">6.6.</a>&nbsp;&nbsp;&nbsp;<a href="##message.metadata">Message Metadata</a><ul><li><a href="##rfc.section.6.6.1">6.6.1.</a>&nbsp;&nbsp;&nbsp;<a href="##field.date">Date</a></li><li><a href="##rfc.section.6.6.2">6.6.2.</a>&nbsp;&nbsp;&nbsp;<a href="##field.trailer">Trailer</a></li></ul></li></ul></li><li><a href="##rfc.section.7">7.</a>&nbsp;&nbsp;&nbsp;<a href="##routing">Routing HTTP Messages</a><ul><li><a href="##rfc.section.7.1">7.1.</a>&nbsp;&nbsp;&nbsp;<a href="##target.resource">Determining the Target Resource</a></li><li><a href="##rfc.section.7.2">7.2.</a>&nbsp;&nbsp;&nbsp;<a href="##field.host">Host and :authority</a></li><li><a href="##rfc.section.7.3">7.3.</a>&nbsp;&nbsp;&nbsp;<a href="##routing.inbound">Routing Inbound Requests</a><ul><li><a href="##rfc.section.7.3.1">7.3.1.</a>&nbsp;&nbsp;&nbsp;<a href="##routing.cache">To a Cache</a></li><li><a href="##rfc.section.7.3.2">7.3.2.</a>&nbsp;&nbsp;&nbsp;<a href="##routing.proxy">To a Proxy</a></li><li><a href="##rfc.section.7.3.3">7.3.3.</a>&nbsp;&nbsp;&nbsp;<a href="##routing.origin">To the Origin</a></li></ul></li><li><a href="##rfc.section.7.4">7.4.</a>&nbsp;&nbsp;&nbsp;<a href="##routing.reject">Rejecting Misdirected Requests</a></li><li><a href="##rfc.section.7.5">7.5.</a>&nbsp;&nbsp;&nbsp;<a href="##response.correlation">Response Correlation</a></li><li><a href="##rfc.section.7.6">7.6.</a>&nbsp;&nbsp;&nbsp;<a href="##message.forwarding">Message Forwarding</a><ul><li><a href="##rfc.section.7.6.1">7.6.1.</a>&nbsp;&nbsp;&nbsp;<a href="##field.connection">Connection</a></li><li><a href="##rfc.section.7.6.2">7.6.2.</a>&nbsp;&nbsp;&nbsp;<a href="##field.max-forwards">Max-Forwards</a></li><li><a href="##rfc.section.7.6.3">7.6.3.</a>&nbsp;&nbsp;&nbsp;<a href="##field.via">Via</a></li></ul></li><li><a href="##rfc.section.7.7">7.7.</a>&nbsp;&nbsp;&nbsp;<a href="##message.transformations">Message Transformations</a></li><li><a href="##rfc.section.7.8">7.8.</a>&nbsp;&nbsp;&nbsp;<a href="##field.upgrade">Upgrade</a></li></ul></li><li><a href="##rfc.section.8">8.</a>&nbsp;&nbsp;&nbsp;<a href="##representation.data.and.metadata">Representation Data and Metadata</a><ul><li><a href="##rfc.section.8.1">8.1.</a>&nbsp;&nbsp;&nbsp;<a href="##representation.data">Representation Data</a></li><li><a href="##rfc.section.8.2">8.2.</a>&nbsp;&nbsp;&nbsp;<a href="##representation.metadata">Representation Metadata</a></li><li><a href="##rfc.section.8.3">8.3.</a>&nbsp;&nbsp;&nbsp;<a href="##field.content-type">Content-Type</a><ul><li><a href="##rfc.section.8.3.1">8.3.1.</a>&nbsp;&nbsp;&nbsp;<a href="##media.type">Media Type</a></li><li><a href="##rfc.section.8.3.2">8.3.2.</a>&nbsp;&nbsp;&nbsp;<a href="##charset">Charset</a></li><li><a href="##rfc.section.8.3.3">8.3.3.</a>&nbsp;&nbsp;&nbsp;<a href="##multipart.types">Multipart Types</a></li></ul></li><li><a href="##rfc.section.8.4">8.4.</a>&nbsp;&nbsp;&nbsp;<a href="##field.content-encoding">Content-Encoding</a><ul><li><a href="##rfc.section.8.4.1">8.4.1.</a>&nbsp;&nbsp;&nbsp;<a href="##content.codings">Content Codings</a><ul><li><a href="##rfc.section.8.4.1.1">8.4.1.1.</a>&nbsp;&nbsp;&nbsp;<a href="##compress.coding">Compress Coding</a></li><li><a href="##rfc.section.8.4.1.2">8.4.1.2.</a>&nbsp;&nbsp;&nbsp;<a href="##deflate.coding">Deflate Coding</a></li><li><a href="##rfc.section.8.4.1.3">8.4.1.3.</a>&nbsp;&nbsp;&nbsp;<a href="##gzip.coding">Gzip Coding</a></li></ul></li></ul></li><li><a href="##rfc.section.8.5">8.5.</a>&nbsp;&nbsp;&nbsp;<a href="##field.content-language">Content-Language</a><ul><li><a href="##rfc.section.8.5.1">8.5.1.</a>&nbsp;&nbsp;&nbsp;<a href="##language.tags">Language Tags</a></li></ul></li><li><a href="##rfc.section.8.6">8.6.</a>&nbsp;&nbsp;&nbsp;<a href="##field.content-length">Content-Length</a></li><li><a href="##rfc.section.8.7">8.7.</a>&nbsp;&nbsp;&nbsp;<a href="##field.content-location">Content-Location</a></li><li><a href="##rfc.section.8.8">8.8.</a>&nbsp;&nbsp;&nbsp;<a href="##response.validator">Validator Fields</a><ul><li><a href="##rfc.section.8.8.1">8.8.1.</a>&nbsp;&nbsp;&nbsp;<a href="##weak.and.strong.validators">Weak versus Strong</a></li><li><a href="##rfc.section.8.8.2">8.8.2.</a>&nbsp;&nbsp;&nbsp;<a href="##field.last-modified">Last-Modified</a><ul><li><a href="##rfc.section.8.8.2.1">8.8.2.1.</a>&nbsp;&nbsp;&nbsp;<a href="##lastmod.generation">Generation</a></li><li><a href="##rfc.section.8.8.2.2">8.8.2.2.</a>&nbsp;&nbsp;&nbsp;<a href="##lastmod.comparison">Comparison</a></li></ul></li><li><a href="##rfc.section.8.8.3">8.8.3.</a>&nbsp;&nbsp;&nbsp;<a href="##field.etag">ETag</a><ul><li><a href="##rfc.section.8.8.3.1">8.8.3.1.</a>&nbsp;&nbsp;&nbsp;<a href="##entity.tag.generation">Generation</a></li><li><a href="##rfc.section.8.8.3.2">8.8.3.2.</a>&nbsp;&nbsp;&nbsp;<a href="##entity.tag.comparison">Comparison</a></li><li><a href="##rfc.section.8.8.3.3">8.8.3.3.</a>&nbsp;&nbsp;&nbsp;<a href="##example.entity.tag.vs.conneg">Example: Entity Tags Varying on Content-Negotiated Resources</a></li></ul></li></ul></li></ul></li><li><a href="##rfc.section.9">9.</a>&nbsp;&nbsp;&nbsp;<a href="##methods">Methods</a><ul><li><a href="##rfc.section.9.1">9.1.</a>&nbsp;&nbsp;&nbsp;<a href="##method.overview">Overview</a></li><li><a href="##rfc.section.9.2">9.2.</a>&nbsp;&nbsp;&nbsp;<a href="##method.properties">Common Method Properties</a><ul><li><a href="##rfc.section.9.2.1">9.2.1.</a>&nbsp;&nbsp;&nbsp;<a href="##safe.methods">Safe Methods</a></li><li><a href="##rfc.section.9.2.2">9.2.2.</a>&nbsp;&nbsp;&nbsp;<a href="##idempotent.methods">Idempotent Methods</a></li><li><a href="##rfc.section.9.2.3">9.2.3.</a>&nbsp;&nbsp;&nbsp;<a href="##cacheable.methods">Methods and Caching</a></li></ul></li><li><a href="##rfc.section.9.3">9.3.</a>&nbsp;&nbsp;&nbsp;<a href="##method.definitions">Method Definitions</a><ul><li><a href="##rfc.section.9.3.1">9.3.1.</a>&nbsp;&nbsp;&nbsp;<a href="##GET">GET</a></li><li><a href="##rfc.section.9.3.2">9.3.2.</a>&nbsp;&nbsp;&nbsp;<a href="##HEAD">HEAD</a></li><li><a href="##rfc.section.9.3.3">9.3.3.</a>&nbsp;&nbsp;&nbsp;<a href="##POST">POST</a></li><li><a href="##rfc.section.9.3.4">9.3.4.</a>&nbsp;&nbsp;&nbsp;<a href="##PUT">PUT</a></li><li><a href="##rfc.section.9.3.5">9.3.5.</a>&nbsp;&nbsp;&nbsp;<a href="##DELETE">DELETE</a></li><li><a href="##rfc.section.9.3.6">9.3.6.</a>&nbsp;&nbsp;&nbsp;<a href="##CONNECT">CONNECT</a></li><li><a href="##rfc.section.9.3.7">9.3.7.</a>&nbsp;&nbsp;&nbsp;<a href="##OPTIONS">OPTIONS</a></li><li><a href="##rfc.section.9.3.8">9.3.8.</a>&nbsp;&nbsp;&nbsp;<a href="##TRACE">TRACE</a></li></ul></li></ul></li><li><a href="##rfc.section.10">10.</a>&nbsp;&nbsp;&nbsp;<a href="##context">Message Context</a><ul><li><a href="##rfc.section.10.1">10.1.</a>&nbsp;&nbsp;&nbsp;<a href="##request.context">Request Context Fields</a><ul><li><a href="##rfc.section.10.1.1">10.1.1.</a>&nbsp;&nbsp;&nbsp;<a href="##field.expect">Expect</a></li><li><a href="##rfc.section.10.1.2">10.1.2.</a>&nbsp;&nbsp;&nbsp;<a href="##field.from">From</a></li><li><a href="##rfc.section.10.1.3">10.1.3.</a>&nbsp;&nbsp;&nbsp;<a href="##field.referer">Referer</a></li><li><a href="##rfc.section.10.1.4">10.1.4.</a>&nbsp;&nbsp;&nbsp;<a href="##field.te">TE</a></li><li><a href="##rfc.section.10.1.5">10.1.5.</a>&nbsp;&nbsp;&nbsp;<a href="##field.user-agent">User-Agent</a></li></ul></li><li><a href="##rfc.section.10.2">10.2.</a>&nbsp;&nbsp;&nbsp;<a href="##response.context">Response Context Fields</a><ul><li><a href="##rfc.section.10.2.1">10.2.1.</a>&nbsp;&nbsp;&nbsp;<a href="##field.allow">Allow</a></li><li><a href="##rfc.section.10.2.2">10.2.2.</a>&nbsp;&nbsp;&nbsp;<a href="##field.location">Location</a></li><li><a href="##rfc.section.10.2.3">10.2.3.</a>&nbsp;&nbsp;&nbsp;<a href="##field.retry-after">Retry-After</a></li><li><a href="##rfc.section.10.2.4">10.2.4.</a>&nbsp;&nbsp;&nbsp;<a href="##field.server">Server</a></li></ul></li></ul></li><li><a href="##rfc.section.11">11.</a>&nbsp;&nbsp;&nbsp;<a href="##authentication">HTTP Authentication</a><ul><li><a href="##rfc.section.11.1">11.1.</a>&nbsp;&nbsp;&nbsp;<a href="##auth.scheme">Authentication Scheme</a></li><li><a href="##rfc.section.11.2">11.2.</a>&nbsp;&nbsp;&nbsp;<a href="##auth.params">Authentication Parameters</a></li><li><a href="##rfc.section.11.3">11.3.</a>&nbsp;&nbsp;&nbsp;<a href="##challenge.and.response">Challenge and Response</a></li><li><a href="##rfc.section.11.4">11.4.</a>&nbsp;&nbsp;&nbsp;<a href="##credentials">Credentials</a></li><li><a href="##rfc.section.11.5">11.5.</a>&nbsp;&nbsp;&nbsp;<a href="##protection.space">Establishing a Protection Space (Realm)</a></li><li><a href="##rfc.section.11.6">11.6.</a>&nbsp;&nbsp;&nbsp;<a href="##auth.user.origin.server">Authenticating Users to Origin Servers</a><ul><li><a href="##rfc.section.11.6.1">11.6.1.</a>&nbsp;&nbsp;&nbsp;<a href="##field.www-authenticate">WWW-Authenticate</a></li><li><a href="##rfc.section.11.6.2">11.6.2.</a>&nbsp;&nbsp;&nbsp;<a href="##field.authorization">Authorization</a></li><li><a href="##rfc.section.11.6.3">11.6.3.</a>&nbsp;&nbsp;&nbsp;<a href="##field.authentication-info">Authentication-Info</a></li></ul></li><li><a href="##rfc.section.11.7">11.7.</a>&nbsp;&nbsp;&nbsp;<a href="##auth.client.proxy">Authenticating Clients to Proxies</a><ul><li><a href="##rfc.section.11.7.1">11.7.1.</a>&nbsp;&nbsp;&nbsp;<a href="##field.proxy-authenticate">Proxy-Authenticate</a></li><li><a href="##rfc.section.11.7.2">11.7.2.</a>&nbsp;&nbsp;&nbsp;<a href="##field.proxy-authorization">Proxy-Authorization</a></li><li><a href="##rfc.section.11.7.3">11.7.3.</a>&nbsp;&nbsp;&nbsp;<a href="##field.proxy-authentication-info">Proxy-Authentication-Info</a></li></ul></li></ul></li><li><a href="##rfc.section.12">12.</a>&nbsp;&nbsp;&nbsp;<a href="##content.negotiation">Content Negotiation</a><ul><li><a href="##rfc.section.12.1">12.1.</a>&nbsp;&nbsp;&nbsp;<a href="##proactive.negotiation">Proactive Negotiation</a></li><li><a href="##rfc.section.12.2">12.2.</a>&nbsp;&nbsp;&nbsp;<a href="##reactive.negotiation">Reactive Negotiation</a></li><li><a href="##rfc.section.12.3">12.3.</a>&nbsp;&nbsp;&nbsp;<a href="##request.content.negotiation">Request Content Negotiation</a></li><li><a href="##rfc.section.12.4">12.4.</a>&nbsp;&nbsp;&nbsp;<a href="##conneg.features">Content Negotiation Field Features</a><ul><li><a href="##rfc.section.12.4.1">12.4.1.</a>&nbsp;&nbsp;&nbsp;<a href="##conneg.absent">Absence</a></li><li><a href="##rfc.section.12.4.2">12.4.2.</a>&nbsp;&nbsp;&nbsp;<a href="##quality.values">Quality Values</a></li><li><a href="##rfc.section.12.4.3">12.4.3.</a>&nbsp;&nbsp;&nbsp;<a href="##wildcard.values">Wildcard Values</a></li></ul></li><li><a href="##rfc.section.12.5">12.5.</a>&nbsp;&nbsp;&nbsp;<a href="##conneg.fields">Content Negotiation Fields</a><ul><li><a href="##rfc.section.12.5.1">12.5.1.</a>&nbsp;&nbsp;&nbsp;<a href="##field.accept">Accept</a></li><li><a href="##rfc.section.12.5.2">12.5.2.</a>&nbsp;&nbsp;&nbsp;<a href="##field.accept-charset">Accept-Charset</a></li><li><a href="##rfc.section.12.5.3">12.5.3.</a>&nbsp;&nbsp;&nbsp;<a href="##field.accept-encoding">Accept-Encoding</a></li><li><a href="##rfc.section.12.5.4">12.5.4.</a>&nbsp;&nbsp;&nbsp;<a href="##field.accept-language">Accept-Language</a></li><li><a href="##rfc.section.12.5.5">12.5.5.</a>&nbsp;&nbsp;&nbsp;<a href="##field.vary">Vary</a></li></ul></li></ul></li><li><a href="##rfc.section.13">13.</a>&nbsp;&nbsp;&nbsp;<a href="##conditional.requests">Conditional Requests</a><ul><li><a href="##rfc.section.13.1">13.1.</a>&nbsp;&nbsp;&nbsp;<a href="##preconditions">Preconditions</a><ul><li><a href="##rfc.section.13.1.1">13.1.1.</a>&nbsp;&nbsp;&nbsp;<a href="##field.if-match">If-Match</a></li><li><a href="##rfc.section.13.1.2">13.1.2.</a>&nbsp;&nbsp;&nbsp;<a href="##field.if-none-match">If-None-Match</a></li><li><a href="##rfc.section.13.1.3">13.1.3.</a>&nbsp;&nbsp;&nbsp;<a href="##field.if-modified-since">If-Modified-Since</a></li><li><a href="##rfc.section.13.1.4">13.1.4.</a>&nbsp;&nbsp;&nbsp;<a href="##field.if-unmodified-since">If-Unmodified-Since</a></li><li><a href="##rfc.section.13.1.5">13.1.5.</a>&nbsp;&nbsp;&nbsp;<a href="##field.if-range">If-Range</a></li></ul></li><li><a href="##rfc.section.13.2">13.2.</a>&nbsp;&nbsp;&nbsp;<a href="##evaluation">Evaluation of Preconditions</a><ul><li><a href="##rfc.section.13.2.1">13.2.1.</a>&nbsp;&nbsp;&nbsp;<a href="##when.to.evaluate">When to Evaluate</a></li><li><a href="##rfc.section.13.2.2">13.2.2.</a>&nbsp;&nbsp;&nbsp;<a href="##precedence">Precedence of Preconditions</a></li></ul></li></ul></li><li><a href="##rfc.section.14">14.</a>&nbsp;&nbsp;&nbsp;<a href="##range.requests">Range Requests</a><ul><li><a href="##rfc.section.14.1">14.1.</a>&nbsp;&nbsp;&nbsp;<a href="##range.units">Range Units</a><ul><li><a href="##rfc.section.14.1.1">14.1.1.</a>&nbsp;&nbsp;&nbsp;<a href="##range.specifiers">Range Specifiers</a></li><li><a href="##rfc.section.14.1.2">14.1.2.</a>&nbsp;&nbsp;&nbsp;<a href="##byte.ranges">Byte Ranges</a></li></ul></li><li><a href="##rfc.section.14.2">14.2.</a>&nbsp;&nbsp;&nbsp;<a href="##field.range">Range</a></li><li><a href="##rfc.section.14.3">14.3.</a>&nbsp;&nbsp;&nbsp;<a href="##field.accept-ranges">Accept-Ranges</a></li><li><a href="##rfc.section.14.4">14.4.</a>&nbsp;&nbsp;&nbsp;<a href="##field.content-range">Content-Range</a></li><li><a href="##rfc.section.14.5">14.5.</a>&nbsp;&nbsp;&nbsp;<a href="##partial.PUT">Partial PUT</a></li><li><a href="##rfc.section.14.6">14.6.</a>&nbsp;&nbsp;&nbsp;<a href="##multipart.byteranges">Media Type multipart/byteranges</a></li></ul></li><li><a href="##rfc.section.15">15.</a>&nbsp;&nbsp;&nbsp;<a href="##status.codes">Status Codes</a><ul><li><a href="##rfc.section.15.1">15.1.</a>&nbsp;&nbsp;&nbsp;<a href="##overview.of.status.codes">Overview of Status Codes</a></li><li><a href="##rfc.section.15.2">15.2.</a>&nbsp;&nbsp;&nbsp;<a href="##status.1xx">Informational 1xx</a><ul><li><a href="##rfc.section.15.2.1">15.2.1.</a>&nbsp;&nbsp;&nbsp;<a href="##status.100">100 Continue</a></li><li><a href="##rfc.section.15.2.2">15.2.2.</a>&nbsp;&nbsp;&nbsp;<a href="##status.101">101 Switching Protocols</a></li></ul></li><li><a href="##rfc.section.15.3">15.3.</a>&nbsp;&nbsp;&nbsp;<a href="##status.2xx">Successful 2xx</a><ul><li><a href="##rfc.section.15.3.1">15.3.1.</a>&nbsp;&nbsp;&nbsp;<a href="##status.200">200 OK</a></li><li><a href="##rfc.section.15.3.2">15.3.2.</a>&nbsp;&nbsp;&nbsp;<a href="##status.201">201 Created</a></li><li><a href="##rfc.section.15.3.3">15.3.3.</a>&nbsp;&nbsp;&nbsp;<a href="##status.202">202 Accepted</a></li><li><a href="##rfc.section.15.3.4">15.3.4.</a>&nbsp;&nbsp;&nbsp;<a href="##status.203">203 Non-Authoritative Information</a></li><li><a href="##rfc.section.15.3.5">15.3.5.</a>&nbsp;&nbsp;&nbsp;<a href="##status.204">204 No Content</a></li><li><a href="##rfc.section.15.3.6">15.3.6.</a>&nbsp;&nbsp;&nbsp;<a href="##status.205">205 Reset Content</a></li><li><a href="##rfc.section.15.3.7">15.3.7.</a>&nbsp;&nbsp;&nbsp;<a href="##status.206">206 Partial Content</a><ul><li><a href="##rfc.section.15.3.7.1">15.3.7.1.</a>&nbsp;&nbsp;&nbsp;<a href="##partial.single">Single Part</a></li><li><a href="##rfc.section.15.3.7.2">15.3.7.2.</a>&nbsp;&nbsp;&nbsp;<a href="##partial.multipart">Multiple Parts</a></li><li><a href="##rfc.section.15.3.7.3">15.3.7.3.</a>&nbsp;&nbsp;&nbsp;<a href="##combining.byte.ranges">Combining Parts</a></li></ul></li></ul></li><li><a href="##rfc.section.15.4">15.4.</a>&nbsp;&nbsp;&nbsp;<a href="##status.3xx">Redirection 3xx</a><ul><li><a href="##rfc.section.15.4.1">15.4.1.</a>&nbsp;&nbsp;&nbsp;<a href="##status.300">300 Multiple Choices</a></li><li><a href="##rfc.section.15.4.2">15.4.2.</a>&nbsp;&nbsp;&nbsp;<a href="##status.301">301 Moved Permanently</a></li><li><a href="##rfc.section.15.4.3">15.4.3.</a>&nbsp;&nbsp;&nbsp;<a href="##status.302">302 Found</a></li><li><a href="##rfc.section.15.4.4">15.4.4.</a>&nbsp;&nbsp;&nbsp;<a href="##status.303">303 See Other</a></li><li><a href="##rfc.section.15.4.5">15.4.5.</a>&nbsp;&nbsp;&nbsp;<a href="##status.304">304 Not Modified</a></li><li><a href="##rfc.section.15.4.6">15.4.6.</a>&nbsp;&nbsp;&nbsp;<a href="##status.305">305 Use Proxy</a></li><li><a href="##rfc.section.15.4.7">15.4.7.</a>&nbsp;&nbsp;&nbsp;<a href="##status.306">306 (Unused)</a></li><li><a href="##rfc.section.15.4.8">15.4.8.</a>&nbsp;&nbsp;&nbsp;<a href="##status.307">307 Temporary Redirect</a></li><li><a href="##rfc.section.15.4.9">15.4.9.</a>&nbsp;&nbsp;&nbsp;<a href="##status.308">308 Permanent Redirect</a></li></ul></li><li><a href="##rfc.section.15.5">15.5.</a>&nbsp;&nbsp;&nbsp;<a href="##status.4xx">Client Error 4xx</a><ul><li><a href="##rfc.section.15.5.1">15.5.1.</a>&nbsp;&nbsp;&nbsp;<a href="##status.400">400 Bad Request</a></li><li><a href="##rfc.section.15.5.2">15.5.2.</a>&nbsp;&nbsp;&nbsp;<a href="##status.401">401 Unauthorized</a></li><li><a href="##rfc.section.15.5.3">15.5.3.</a>&nbsp;&nbsp;&nbsp;<a href="##status.402">402 Payment Required</a></li><li><a href="##rfc.section.15.5.4">15.5.4.</a>&nbsp;&nbsp;&nbsp;<a href="##status.403">403 Forbidden</a></li><li><a href="##rfc.section.15.5.5">15.5.5.</a>&nbsp;&nbsp;&nbsp;<a href="##status.404">404 Not Found</a></li><li><a href="##rfc.section.15.5.6">15.5.6.</a>&nbsp;&nbsp;&nbsp;<a href="##status.405">405 Method Not Allowed</a></li><li><a href="##rfc.section.15.5.7">15.5.7.</a>&nbsp;&nbsp;&nbsp;<a href="##status.406">406 Not Acceptable</a></li><li><a href="##rfc.section.15.5.8">15.5.8.</a>&nbsp;&nbsp;&nbsp;<a href="##status.407">407 Proxy Authentication Required</a></li><li><a href="##rfc.section.15.5.9">15.5.9.</a>&nbsp;&nbsp;&nbsp;<a href="##status.408">408 Request Timeout</a></li><li><a href="##rfc.section.15.5.10">15.5.10.</a>&nbsp;&nbsp;&nbsp;<a href="##status.409">409 Conflict</a></li><li><a href="##rfc.section.15.5.11">15.5.11.</a>&nbsp;&nbsp;&nbsp;<a href="##status.410">410 Gone</a></li><li><a href="##rfc.section.15.5.12">15.5.12.</a>&nbsp;&nbsp;&nbsp;<a href="##status.411">411 Length Required</a></li><li><a href="##rfc.section.15.5.13">15.5.13.</a>&nbsp;&nbsp;&nbsp;<a href="##status.412">412 Precondition Failed</a></li><li><a href="##rfc.section.15.5.14">15.5.14.</a>&nbsp;&nbsp;&nbsp;<a href="##status.413">413 Content Too Large</a></li><li><a href="##rfc.section.15.5.15">15.5.15.</a>&nbsp;&nbsp;&nbsp;<a href="##status.414">414 URI Too Long</a></li><li><a href="##rfc.section.15.5.16">15.5.16.</a>&nbsp;&nbsp;&nbsp;<a href="##status.415">415 Unsupported Media Type</a></li><li><a href="##rfc.section.15.5.17">15.5.17.</a>&nbsp;&nbsp;&nbsp;<a href="##status.416">416 Range Not Satisfiable</a></li><li><a href="##rfc.section.15.5.18">15.5.18.</a>&nbsp;&nbsp;&nbsp;<a href="##status.417">417 Expectation Failed</a></li><li><a href="##rfc.section.15.5.19">15.5.19.</a>&nbsp;&nbsp;&nbsp;<a href="##status.418">418 (Unused)</a></li><li><a href="##rfc.section.15.5.20">15.5.20.</a>&nbsp;&nbsp;&nbsp;<a href="##status.421">421 Misdirected Request</a></li><li><a href="##rfc.section.15.5.21">15.5.21.</a>&nbsp;&nbsp;&nbsp;<a href="##status.422">422 Unprocessable Content</a></li><li><a href="##rfc.section.15.5.22">15.5.22.</a>&nbsp;&nbsp;&nbsp;<a href="##status.426">426 Upgrade Required</a></li></ul></li><li><a href="##rfc.section.15.6">15.6.</a>&nbsp;&nbsp;&nbsp;<a href="##status.5xx">Server Error 5xx</a><ul><li><a href="##rfc.section.15.6.1">15.6.1.</a>&nbsp;&nbsp;&nbsp;<a href="##status.500">500 Internal Server Error</a></li><li><a href="##rfc.section.15.6.2">15.6.2.</a>&nbsp;&nbsp;&nbsp;<a href="##status.501">501 Not Implemented</a></li><li><a href="##rfc.section.15.6.3">15.6.3.</a>&nbsp;&nbsp;&nbsp;<a href="##status.502">502 Bad Gateway</a></li><li><a href="##rfc.section.15.6.4">15.6.4.</a>&nbsp;&nbsp;&nbsp;<a href="##status.503">503 Service Unavailable</a></li><li><a href="##rfc.section.15.6.5">15.6.5.</a>&nbsp;&nbsp;&nbsp;<a href="##status.504">504 Gateway Timeout</a></li><li><a href="##rfc.section.15.6.6">15.6.6.</a>&nbsp;&nbsp;&nbsp;<a href="##status.505">505 HTTP Version Not Supported</a></li></ul></li></ul></li><li><a href="##rfc.section.16">16.</a>&nbsp;&nbsp;&nbsp;<a href="##extending">Extending HTTP</a><ul><li><a href="##rfc.section.16.1">16.1.</a>&nbsp;&nbsp;&nbsp;<a href="##method.extensibility">Method Extensibility</a><ul><li><a href="##rfc.section.16.1.1">16.1.1.</a>&nbsp;&nbsp;&nbsp;<a href="##method.registry">Method Registry</a></li><li><a href="##rfc.section.16.1.2">16.1.2.</a>&nbsp;&nbsp;&nbsp;<a href="##considerations.for.new.methods">Considerations for New Methods</a></li></ul></li><li><a href="##rfc.section.16.2">16.2.</a>&nbsp;&nbsp;&nbsp;<a href="##status.code.extensibility">Status Code Extensibility</a><ul><li><a href="##rfc.section.16.2.1">16.2.1.</a>&nbsp;&nbsp;&nbsp;<a href="##status.code.registry">Status Code Registry</a></li><li><a href="##rfc.section.16.2.2">16.2.2.</a>&nbsp;&nbsp;&nbsp;<a href="##considerations.for.new.status.codes">Considerations for New Status Codes</a></li></ul></li><li><a href="##rfc.section.16.3">16.3.</a>&nbsp;&nbsp;&nbsp;<a href="##fields.extensibility">Field Extensibility</a><ul><li><a href="##rfc.section.16.3.1">16.3.1.</a>&nbsp;&nbsp;&nbsp;<a href="##fields.registry">Field Name Registry</a></li><li><a href="##rfc.section.16.3.2">16.3.2.</a>&nbsp;&nbsp;&nbsp;<a href="##considerations.for.new.fields">Considerations for New Fields</a><ul><li><a href="##rfc.section.16.3.2.1">16.3.2.1.</a>&nbsp;&nbsp;&nbsp;<a href="##considerations.for.new.field.names">Considerations for New Field Names</a></li><li><a href="##rfc.section.16.3.2.2">16.3.2.2.</a>&nbsp;&nbsp;&nbsp;<a href="##considerations.for.new.field.values">Considerations for New Field Values</a></li></ul></li></ul></li><li><a href="##rfc.section.16.4">16.4.</a>&nbsp;&nbsp;&nbsp;<a href="##auth.scheme.extensibility">Authentication Scheme Extensibility</a><ul><li><a href="##rfc.section.16.4.1">16.4.1.</a>&nbsp;&nbsp;&nbsp;<a href="##auth.scheme.registry">Authentication Scheme Registry</a></li><li><a href="##rfc.section.16.4.2">16.4.2.</a>&nbsp;&nbsp;&nbsp;<a href="##considerations.for.new.auth.schemes">Considerations for New Authentication Schemes</a></li></ul></li><li><a href="##rfc.section.16.5">16.5.</a>&nbsp;&nbsp;&nbsp;<a href="##range.unit.extensibility">Range Unit Extensibility</a><ul><li><a href="##rfc.section.16.5.1">16.5.1.</a>&nbsp;&nbsp;&nbsp;<a href="##range.unit.registry">Range Unit Registry</a></li><li><a href="##rfc.section.16.5.2">16.5.2.</a>&nbsp;&nbsp;&nbsp;<a href="##considerations.for.new.range.units">Considerations for New Range Units</a></li></ul></li><li><a href="##rfc.section.16.6">16.6.</a>&nbsp;&nbsp;&nbsp;<a href="##content.coding.extensibility">Content Coding Extensibility</a><ul><li><a href="##rfc.section.16.6.1">16.6.1.</a>&nbsp;&nbsp;&nbsp;<a href="##content.coding.registry">Content Coding Registry</a></li><li><a href="##rfc.section.16.6.2">16.6.2.</a>&nbsp;&nbsp;&nbsp;<a href="##considerations.for.new.content.codings">Considerations for New Content Codings</a></li></ul></li><li><a href="##rfc.section.16.7">16.7.</a>&nbsp;&nbsp;&nbsp;<a href="##upgrade.token.registry">Upgrade Token Registry</a></li></ul></li><li><a href="##rfc.section.17">17.</a>&nbsp;&nbsp;&nbsp;<a href="##security.considerations">Security Considerations</a><ul><li><a href="##rfc.section.17.1">17.1.</a>&nbsp;&nbsp;&nbsp;<a href="##establishing.authority">Establishing Authority</a></li><li><a href="##rfc.section.17.2">17.2.</a>&nbsp;&nbsp;&nbsp;<a href="##risks.intermediaries">Risks of Intermediaries</a></li><li><a href="##rfc.section.17.3">17.3.</a>&nbsp;&nbsp;&nbsp;<a href="##attack.pathname">Attacks Based on File and Path Names</a></li><li><a href="##rfc.section.17.4">17.4.</a>&nbsp;&nbsp;&nbsp;<a href="##attack.injection">Attacks Based on Command, Code, or Query Injection</a></li><li><a href="##rfc.section.17.5">17.5.</a>&nbsp;&nbsp;&nbsp;<a href="##attack.protocol.element.length">Attacks via Protocol Element Length</a></li><li><a href="##rfc.section.17.6">17.6.</a>&nbsp;&nbsp;&nbsp;<a href="##compression.attacks">Attacks Using Shared-Dictionary Compression</a></li><li><a href="##rfc.section.17.7">17.7.</a>&nbsp;&nbsp;&nbsp;<a href="##personal.information">Disclosure of Personal Information</a></li><li><a href="##rfc.section.17.8">17.8.</a>&nbsp;&nbsp;&nbsp;<a href="##privacy.of.server.log.information">Privacy of Server Log Information</a></li><li><a href="##rfc.section.17.9">17.9.</a>&nbsp;&nbsp;&nbsp;<a href="##sensitive.information.in.uris">Disclosure of Sensitive Information in URIs</a></li><li><a href="##rfc.section.17.10">17.10.</a>&nbsp;&nbsp;&nbsp;<a href="##underscore.in.fields">Application Handling of Field Names</a></li><li><a href="##rfc.section.17.11">17.11.</a>&nbsp;&nbsp;&nbsp;<a href="##fragment.disclosure">Disclosure of Fragment after Redirects</a></li><li><a href="##rfc.section.17.12">17.12.</a>&nbsp;&nbsp;&nbsp;<a href="##disclosure.product.information">Disclosure of Product Information</a></li><li><a href="##rfc.section.17.13">17.13.</a>&nbsp;&nbsp;&nbsp;<a href="##fingerprinting">Browser Fingerprinting</a></li><li><a href="##rfc.section.17.14">17.14.</a>&nbsp;&nbsp;&nbsp;<a href="##security.validators">Validator Retention</a></li><li><a href="##rfc.section.17.15">17.15.</a>&nbsp;&nbsp;&nbsp;<a href="##overlapping.ranges">Denial-of-Service Attacks Using Range</a></li><li><a href="##rfc.section.17.16">17.16.</a>&nbsp;&nbsp;&nbsp;<a href="##security.auth">Authentication Considerations</a><ul><li><a href="##rfc.section.17.16.1">17.16.1.</a>&nbsp;&nbsp;&nbsp;<a href="##confidentiality.of.credentials">Confidentiality of Credentials</a></li><li><a href="##rfc.section.17.16.2">17.16.2.</a>&nbsp;&nbsp;&nbsp;<a href="##auth.credentials.and.idle.clients">Credentials and Idle Clients</a></li><li><a href="##rfc.section.17.16.3">17.16.3.</a>&nbsp;&nbsp;&nbsp;<a href="##protection.spaces">Protection Spaces</a></li><li><a href="##rfc.section.17.16.4">17.16.4.</a>&nbsp;&nbsp;&nbsp;<a href="##security.auth.add.resp">Additional Response Fields</a></li></ul></li></ul></li><li><a href="##rfc.section.18">18.</a>&nbsp;&nbsp;&nbsp;<a href="##IANA.considerations">IANA Considerations</a><ul><li><a href="##rfc.section.18.1">18.1.</a>&nbsp;&nbsp;&nbsp;<a href="##uri.scheme.registration">URI Scheme Registration</a></li><li><a href="##rfc.section.18.2">18.2.</a>&nbsp;&nbsp;&nbsp;<a href="##method.registration">Method Registration</a></li><li><a href="##rfc.section.18.3">18.3.</a>&nbsp;&nbsp;&nbsp;<a href="##status.code.registration">Status Code Registration</a></li><li><a href="##rfc.section.18.4">18.4.</a>&nbsp;&nbsp;&nbsp;<a href="##field.name.registration">Field Name Registration</a></li><li><a href="##rfc.section.18.5">18.5.</a>&nbsp;&nbsp;&nbsp;<a href="##auth.scheme.registration">Authentication Scheme Registration</a></li><li><a href="##rfc.section.18.6">18.6.</a>&nbsp;&nbsp;&nbsp;<a href="##content.coding.registration">Content Coding Registration</a></li><li><a href="##rfc.section.18.7">18.7.</a>&nbsp;&nbsp;&nbsp;<a href="##range.unit.registration">Range Unit Registration</a></li><li><a href="##rfc.section.18.8">18.8.</a>&nbsp;&nbsp;&nbsp;<a href="##media.type.reg">Media Type Registration</a></li><li><a href="##rfc.section.18.9">18.9.</a>&nbsp;&nbsp;&nbsp;<a href="##port.reg">Port Registration</a></li><li><a href="##rfc.section.18.10">18.10.</a>&nbsp;&nbsp;&nbsp;<a href="##upgrade.token.registration">Upgrade Token Registration</a></li></ul></li><li><a href="##rfc.section.19">19.</a>&nbsp;&nbsp;&nbsp;<a href="##rfc.references">References</a><ul><li><a href="##rfc.section.19.1">19.1.</a>&nbsp;&nbsp;&nbsp;<a href="##rfc.references.1">Normative References</a></li><li><a href="##rfc.section.19.2">19.2.</a>&nbsp;&nbsp;&nbsp;<a href="##rfc.references.2">Informative References</a></li></ul></li><li><a href="##rfc.section.A">Appendix A.</a>&nbsp;&nbsp;&nbsp;<a href="##collected.abnf">Collected ABNF</a></li><li><a href="##rfc.section.B">Appendix B.</a>&nbsp;&nbsp;&nbsp;<a href="##changes.from.previous.rfcs">Changes from Previous RFCs</a><ul><li><a href="##rfc.section.B.1">B.1.</a>&nbsp;&nbsp;&nbsp;<a href="##changes.from.rfc.2818">Changes from RFC 2818</a></li><li><a href="##rfc.section.B.2">B.2.</a>&nbsp;&nbsp;&nbsp;<a href="##changes.from.rfc.7230">Changes from RFC 7230</a></li><li><a href="##rfc.section.B.3">B.3.</a>&nbsp;&nbsp;&nbsp;<a href="##changes.from.rfc.7231">Changes from RFC 7231</a></li><li><a href="##rfc.section.B.4">B.4.</a>&nbsp;&nbsp;&nbsp;<a href="##changes.from.rfc.7232">Changes from RFC 7232</a></li><li><a href="##rfc.section.B.5">B.5.</a>&nbsp;&nbsp;&nbsp;<a href="##changes.from.rfc.7233">Changes from RFC 7233</a></li><li><a href="##rfc.section.B.6">B.6.</a>&nbsp;&nbsp;&nbsp;<a href="##changes.from.rfc.7235">Changes from RFC 7235</a></li><li><a href="##rfc.section.B.7">B.7.</a>&nbsp;&nbsp;&nbsp;<a href="##changes.from.rfc.7538">Changes from RFC 7538</a></li><li><a href="##rfc.section.B.8">B.8.</a>&nbsp;&nbsp;&nbsp;<a href="##changes.from.rfc.7615">Changes from RFC 7615</a></li><li><a href="##rfc.section.B.9">B.9.</a>&nbsp;&nbsp;&nbsp;<a href="##changes.from.rfc.7694">Changes from RFC 7694</a></li></ul></li><li><a href="##acks">Acknowledgements</a></li><li><a href="##rfc.index">Index</a></li><li><a href="##rfc.authors">Authors' Addresses</a></li></ul></div></div></div></div><div class="col-lg-8 order-first main" role="main"><header><table class="table table-condensed header" id="rfc.headerblock"><tbody><tr><td class="text-left">Internet Engineering Task Force (IETF)</td><td class="text-right">R. Fielding, Editor</td></tr><tr><td class="text-left">Request for Comments: 9110</td><td class="text-right">Adobe</td></tr><tr><td class="text-left">Obsoletes: <a href="##RFC2818">2818</a>, <a href="##RFC7230">7230</a>, <a href="##RFC7231">7231</a>, <a href="##RFC7232">7232</a>, <a href="##RFC7233">7233</a>, <a href="##RFC7235">7235</a>, <a href="##RFC7538">7538</a>, <a href="##RFC7615">7615</a>, <a href="##RFC7694">7694</a></td><td class="text-right">M. Nottingham, Editor</td></tr><tr><td class="text-left">STD: <a href="https://www.rfc-editor.org/info/std97">97</a></td><td class="text-right">Fastly</td></tr><tr><td class="text-left">Updates: <a href="##RFC3864">3864</a></td><td class="text-right">J. Reschke, Editor</td></tr><tr><td class="text-left">Category: Standards Track</td><td class="text-right">greenbytes</td></tr><tr><td class="text-left">ISSN: 2070-1721</td><td class="text-right">June 2022</td></tr></tbody></table><div id="rfc.title"><h1>HTTP Semantics</h1></div></header><hr><h2 id="rfc.abstract"><a href="##rfc.abstract">Abstract</a></h2><div class="lead"><div id="rfc.abstract.p.1"><p>The Hypertext Transfer Protocol (HTTP) is a stateless application-level protocol for distributed, collaborative, hypertext information systems. This document describes the overall architecture of HTTP, establishes common terminology, and defines aspects of the protocol that are shared by all versions. In this definition are core protocol elements, extensibility mechanisms, and the "http" and "https" Uniform Resource Identifier (URI) schemes.</p></div><div id="rfc.abstract.p.2"><p>This document updates RFC 3864 and obsoletes RFCs 2818, 7231, 7232, 7233, 7235, 7538, 7615, 7694, and portions of 7230.</p></div></div><aside id="rfc.meta" class="alert alert-info" style="display: block;"><b>INTERNET STANDARD</b><br><i>This document has <a href="https://www.rfc-editor.org/errata/rfc9110">errata</a>.</i></aside><section id="rfc.status"><h2><a href="##rfc.status">Status of This Memo</a></h2><div id="rfc.boilerplate.1.p.1"><p>This is an Internet Standards Track document.</p></div><div id="rfc.boilerplate.1.p.2"><p>This document is a product of the Internet Engineering Task Force (IETF). It represents the consensus of the IETF community. It has received public review and has been approved for publication by the Internet Engineering Steering Group (IESG). Further information on Internet Standards is available in <a href="https://www.rfc-editor.org/rfc/rfc7841.html#section-2">Section 2 of RFC 7841</a>.</p></div><div id="rfc.boilerplate.1.p.3"><p>Information about the current status of this document, any errata, and how to provide feedback on it may be obtained at <a href="https://www.rfc-editor.org/info/rfc9110">https://www.rfc-editor.org/info/rfc9110</a>.</p></div></section><section id="rfc.copyrightnotice"><h2><a href="##rfc.copyrightnotice">Copyright Notice</a></h2><div id="rfc.boilerplate.2.p.1"><p>Copyright (c) 2022 IETF Trust and the persons identified as the document authors. All rights reserved.</p></div><div id="rfc.boilerplate.2.p.2"><p>This document is subject to BCP 78 and the IETF Trust's Legal Provisions Relating to IETF Documents (<a href="https://trustee.ietf.org/license-info">https://trustee.ietf.org/license-info</a>) in effect on the date of publication of this document. Please review these documents carefully, as they describe your rights and restrictions with respect to this document. Code Components extracted from this document must include Revised BSD License text as described in Section 4.e of the Trust Legal Provisions and are provided without warranty as described in the Revised BSD License.</p></div><div id="rfc.boilerplate.2.p.3"><p>This document may contain material from IETF Documents or IETF Contributions published or made publicly available before November 10, 2008. The person(s) controlling the copyright in some of this material may not have granted the IETF Trust the right to allow modifications of such material outside the IETF Standards Process. Without obtaining an adequate license from the person(s) controlling the copyright in such materials, this document may not be modified outside the IETF Standards Process, and derivative works of it may not be created outside the IETF Standards Process, except to format it for publication as an RFC or to translate it into languages other than English.</p></div></section><div class="toc d-lg-none"><ul><li><a href="##rfc.section.1">1.</a>&nbsp;&nbsp;&nbsp;<a href="##introduction">Introduction</a><ul><li><a href="##rfc.section.1.1">1.1.</a>&nbsp;&nbsp;&nbsp;<a href="##purpose">Purpose</a></li><li><a href="##rfc.section.1.2">1.2.</a>&nbsp;&nbsp;&nbsp;<a href="##history.and.evolution">History and Evolution</a></li><li><a href="##rfc.section.1.3">1.3.</a>&nbsp;&nbsp;&nbsp;<a href="##core.semantics">Core Semantics</a></li><li><a href="##rfc.section.1.4">1.4.</a>&nbsp;&nbsp;&nbsp;<a href="##specifications.obsoleted.by.this.document">Specifications Obsoleted by This Document</a></li></ul></li><li><a href="##rfc.section.2">2.</a>&nbsp;&nbsp;&nbsp;<a href="##conformance">Conformance</a><ul><li><a href="##rfc.section.2.1">2.1.</a>&nbsp;&nbsp;&nbsp;<a href="##notation">Syntax Notation</a></li><li><a href="##rfc.section.2.2">2.2.</a>&nbsp;&nbsp;&nbsp;<a href="##requirements.notation">Requirements Notation</a></li><li><a href="##rfc.section.2.3">2.3.</a>&nbsp;&nbsp;&nbsp;<a href="##length.requirements">Length Requirements</a></li><li><a href="##rfc.section.2.4">2.4.</a>&nbsp;&nbsp;&nbsp;<a href="##error.handling">Error Handling</a></li><li><a href="##rfc.section.2.5">2.5.</a>&nbsp;&nbsp;&nbsp;<a href="##protocol.version">Protocol Version</a></li></ul></li><li><a href="##rfc.section.3">3.</a>&nbsp;&nbsp;&nbsp;<a href="##terminology">Terminology and Core Concepts</a><ul><li><a href="##rfc.section.3.1">3.1.</a>&nbsp;&nbsp;&nbsp;<a href="##resources">Resources</a></li><li><a href="##rfc.section.3.2">3.2.</a>&nbsp;&nbsp;&nbsp;<a href="##representations">Representations</a></li><li><a href="##rfc.section.3.3">3.3.</a>&nbsp;&nbsp;&nbsp;<a href="##connections">Connections, Clients, and Servers</a></li><li><a href="##rfc.section.3.4">3.4.</a>&nbsp;&nbsp;&nbsp;<a href="##messages">Messages</a></li><li><a href="##rfc.section.3.5">3.5.</a>&nbsp;&nbsp;&nbsp;<a href="##user.agent">User Agents</a></li><li><a href="##rfc.section.3.6">3.6.</a>&nbsp;&nbsp;&nbsp;<a href="##origin.server">Origin Server</a></li><li><a href="##rfc.section.3.7">3.7.</a>&nbsp;&nbsp;&nbsp;<a href="##intermediaries">Intermediaries</a></li><li><a href="##rfc.section.3.8">3.8.</a>&nbsp;&nbsp;&nbsp;<a href="##caches">Caches</a></li><li><a href="##rfc.section.3.9">3.9.</a>&nbsp;&nbsp;&nbsp;<a href="##example">Example Message Exchange</a></li></ul></li><li><a href="##rfc.section.4">4.</a>&nbsp;&nbsp;&nbsp;<a href="##uri">Identifiers in HTTP</a><ul><li><a href="##rfc.section.4.1">4.1.</a>&nbsp;&nbsp;&nbsp;<a href="##uri.references">URI References</a></li><li><a href="##rfc.section.4.2">4.2.</a>&nbsp;&nbsp;&nbsp;<a href="##uri.schemes">HTTP-Related URI Schemes</a><ul><li><a href="##rfc.section.4.2.1">4.2.1.</a>&nbsp;&nbsp;&nbsp;<a href="##http.uri">http URI Scheme</a></li><li><a href="##rfc.section.4.2.2">4.2.2.</a>&nbsp;&nbsp;&nbsp;<a href="##https.uri">https URI Scheme</a></li><li><a href="##rfc.section.4.2.3">4.2.3.</a>&nbsp;&nbsp;&nbsp;<a href="##uri.comparison">http(s) Normalization and Comparison</a></li><li><a href="##rfc.section.4.2.4">4.2.4.</a>&nbsp;&nbsp;&nbsp;<a href="##http.userinfo">Deprecation of userinfo in http(s) URIs</a></li><li><a href="##rfc.section.4.2.5">4.2.5.</a>&nbsp;&nbsp;&nbsp;<a href="##uri.fragment.identifiers">http(s) References with Fragment Identifiers</a></li></ul></li><li><a href="##rfc.section.4.3">4.3.</a>&nbsp;&nbsp;&nbsp;<a href="##authoritative.access">Authoritative Access</a><ul><li><a href="##rfc.section.4.3.1">4.3.1.</a>&nbsp;&nbsp;&nbsp;<a href="##origin">URI Origin</a></li><li><a href="##rfc.section.4.3.2">4.3.2.</a>&nbsp;&nbsp;&nbsp;<a href="##http.origin">http Origins</a></li><li><a href="##rfc.section.4.3.3">4.3.3.</a>&nbsp;&nbsp;&nbsp;<a href="##https.origin">https Origins</a></li><li><a href="##rfc.section.4.3.4">4.3.4.</a>&nbsp;&nbsp;&nbsp;<a href="##https.verify">https Certificate Verification</a></li><li><a href="##rfc.section.4.3.5">4.3.5.</a>&nbsp;&nbsp;&nbsp;<a href="##https.ip-id">IP-ID Reference Identity</a></li></ul></li></ul></li><li><a href="##rfc.section.5">5.</a>&nbsp;&nbsp;&nbsp;<a href="##fields">Fields</a><ul><li><a href="##rfc.section.5.1">5.1.</a>&nbsp;&nbsp;&nbsp;<a href="##fields.names">Field Names</a></li><li><a href="##rfc.section.5.2">5.2.</a>&nbsp;&nbsp;&nbsp;<a href="##field.lines">Field Lines and Combined Field Value</a></li><li><a href="##rfc.section.5.3">5.3.</a>&nbsp;&nbsp;&nbsp;<a href="##fields.order">Field Order</a></li><li><a href="##rfc.section.5.4">5.4.</a>&nbsp;&nbsp;&nbsp;<a href="##fields.limits">Field Limits</a></li><li><a href="##rfc.section.5.5">5.5.</a>&nbsp;&nbsp;&nbsp;<a href="##fields.values">Field Values</a></li><li><a href="##rfc.section.5.6">5.6.</a>&nbsp;&nbsp;&nbsp;<a href="##fields.components">Common Rules for Defining Field Values</a><ul><li><a href="##rfc.section.5.6.1">5.6.1.</a>&nbsp;&nbsp;&nbsp;<a href="##abnf.extension">Lists (#rule ABNF Extension)</a><ul><li><a href="##rfc.section.5.6.1.1">5.6.1.1.</a>&nbsp;&nbsp;&nbsp;<a href="##abnf.extension.sender">Sender Requirements</a></li><li><a href="##rfc.section.5.6.1.2">5.6.1.2.</a>&nbsp;&nbsp;&nbsp;<a href="##abnf.extension.recipient">Recipient Requirements</a></li></ul></li><li><a href="##rfc.section.5.6.2">5.6.2.</a>&nbsp;&nbsp;&nbsp;<a href="##tokens">Tokens</a></li><li><a href="##rfc.section.5.6.3">5.6.3.</a>&nbsp;&nbsp;&nbsp;<a href="##whitespace">Whitespace</a></li><li><a href="##rfc.section.5.6.4">5.6.4.</a>&nbsp;&nbsp;&nbsp;<a href="##quoted.strings">Quoted Strings</a></li><li><a href="##rfc.section.5.6.5">5.6.5.</a>&nbsp;&nbsp;&nbsp;<a href="##comments">Comments</a></li><li><a href="##rfc.section.5.6.6">5.6.6.</a>&nbsp;&nbsp;&nbsp;<a href="##parameter">Parameters</a></li><li><a href="##rfc.section.5.6.7">5.6.7.</a>&nbsp;&nbsp;&nbsp;<a href="##http.date">Date/Time Formats</a></li></ul></li></ul></li><li><a href="##rfc.section.6">6.</a>&nbsp;&nbsp;&nbsp;<a href="##message.abstraction">Message Abstraction</a><ul><li><a href="##rfc.section.6.1">6.1.</a>&nbsp;&nbsp;&nbsp;<a href="##message.framing">Framing and Completeness</a></li><li><a href="##rfc.section.6.2">6.2.</a>&nbsp;&nbsp;&nbsp;<a href="##message.control.data">Control Data</a></li><li><a href="##rfc.section.6.3">6.3.</a>&nbsp;&nbsp;&nbsp;<a href="##header.fields">Header Fields</a></li><li><a href="##rfc.section.6.4">6.4.</a>&nbsp;&nbsp;&nbsp;<a href="##content">Content</a><ul><li><a href="##rfc.section.6.4.1">6.4.1.</a>&nbsp;&nbsp;&nbsp;<a href="##content.semantics">Content Semantics</a></li><li><a href="##rfc.section.6.4.2">6.4.2.</a>&nbsp;&nbsp;&nbsp;<a href="##identifying.content">Identifying Content</a></li></ul></li><li><a href="##rfc.section.6.5">6.5.</a>&nbsp;&nbsp;&nbsp;<a href="##trailer.fields">Trailer Fields</a><ul><li><a href="##rfc.section.6.5.1">6.5.1.</a>&nbsp;&nbsp;&nbsp;<a href="##trailers.limitations">Limitations on Use of Trailers</a></li><li><a href="##rfc.section.6.5.2">6.5.2.</a>&nbsp;&nbsp;&nbsp;<a href="##trailers.processing">Processing Trailer Fields</a></li></ul></li><li><a href="##rfc.section.6.6">6.6.</a>&nbsp;&nbsp;&nbsp;<a href="##message.metadata">Message Metadata</a><ul><li><a href="##rfc.section.6.6.1">6.6.1.</a>&nbsp;&nbsp;&nbsp;<a href="##field.date">Date</a></li><li><a href="##rfc.section.6.6.2">6.6.2.</a>&nbsp;&nbsp;&nbsp;<a href="##field.trailer">Trailer</a></li></ul></li></ul></li><li><a href="##rfc.section.7">7.</a>&nbsp;&nbsp;&nbsp;<a href="##routing">Routing HTTP Messages</a><ul><li><a href="##rfc.section.7.1">7.1.</a>&nbsp;&nbsp;&nbsp;<a href="##target.resource">Determining the Target Resource</a></li><li><a href="##rfc.section.7.2">7.2.</a>&nbsp;&nbsp;&nbsp;<a href="##field.host">Host and :authority</a></li><li><a href="##rfc.section.7.3">7.3.</a>&nbsp;&nbsp;&nbsp;<a href="##routing.inbound">Routing Inbound Requests</a><ul><li><a href="##rfc.section.7.3.1">7.3.1.</a>&nbsp;&nbsp;&nbsp;<a href="##routing.cache">To a Cache</a></li><li><a href="##rfc.section.7.3.2">7.3.2.</a>&nbsp;&nbsp;&nbsp;<a href="##routing.proxy">To a Proxy</a></li><li><a href="##rfc.section.7.3.3">7.3.3.</a>&nbsp;&nbsp;&nbsp;<a href="##routing.origin">To the Origin</a></li></ul></li><li><a href="##rfc.section.7.4">7.4.</a>&nbsp;&nbsp;&nbsp;<a href="##routing.reject">Rejecting Misdirected Requests</a></li><li><a href="##rfc.section.7.5">7.5.</a>&nbsp;&nbsp;&nbsp;<a href="##response.correlation">Response Correlation</a></li><li><a href="##rfc.section.7.6">7.6.</a>&nbsp;&nbsp;&nbsp;<a href="##message.forwarding">Message Forwarding</a><ul><li><a href="##rfc.section.7.6.1">7.6.1.</a>&nbsp;&nbsp;&nbsp;<a href="##field.connection">Connection</a></li><li><a href="##rfc.section.7.6.2">7.6.2.</a>&nbsp;&nbsp;&nbsp;<a href="##field.max-forwards">Max-Forwards</a></li><li><a href="##rfc.section.7.6.3">7.6.3.</a>&nbsp;&nbsp;&nbsp;<a href="##field.via">Via</a></li></ul></li><li><a href="##rfc.section.7.7">7.7.</a>&nbsp;&nbsp;&nbsp;<a href="##message.transformations">Message Transformations</a></li><li><a href="##rfc.section.7.8">7.8.</a>&nbsp;&nbsp;&nbsp;<a href="##field.upgrade">Upgrade</a></li></ul></li><li><a href="##rfc.section.8">8.</a>&nbsp;&nbsp;&nbsp;<a href="##representation.data.and.metadata">Representation Data and Metadata</a><ul><li><a href="##rfc.section.8.1">8.1.</a>&nbsp;&nbsp;&nbsp;<a href="##representation.data">Representation Data</a></li><li><a href="##rfc.section.8.2">8.2.</a>&nbsp;&nbsp;&nbsp;<a href="##representation.metadata">Representation Metadata</a></li><li><a href="##rfc.section.8.3">8.3.</a>&nbsp;&nbsp;&nbsp;<a href="##field.content-type">Content-Type</a><ul><li><a href="##rfc.section.8.3.1">8.3.1.</a>&nbsp;&nbsp;&nbsp;<a href="##media.type">Media Type</a></li><li><a href="##rfc.section.8.3.2">8.3.2.</a>&nbsp;&nbsp;&nbsp;<a href="##charset">Charset</a></li><li><a href="##rfc.section.8.3.3">8.3.3.</a>&nbsp;&nbsp;&nbsp;<a href="##multipart.types">Multipart Types</a></li></ul></li><li><a href="##rfc.section.8.4">8.4.</a>&nbsp;&nbsp;&nbsp;<a href="##field.content-encoding">Content-Encoding</a><ul><li><a href="##rfc.section.8.4.1">8.4.1.</a>&nbsp;&nbsp;&nbsp;<a href="##content.codings">Content Codings</a><ul><li><a href="##rfc.section.8.4.1.1">8.4.1.1.</a>&nbsp;&nbsp;&nbsp;<a href="##compress.coding">Compress Coding</a></li><li><a href="##rfc.section.8.4.1.2">8.4.1.2.</a>&nbsp;&nbsp;&nbsp;<a href="##deflate.coding">Deflate Coding</a></li><li><a href="##rfc.section.8.4.1.3">8.4.1.3.</a>&nbsp;&nbsp;&nbsp;<a href="##gzip.coding">Gzip Coding</a></li></ul></li></ul></li><li><a href="##rfc.section.8.5">8.5.</a>&nbsp;&nbsp;&nbsp;<a href="##field.content-language">Content-Language</a><ul><li><a href="##rfc.section.8.5.1">8.5.1.</a>&nbsp;&nbsp;&nbsp;<a href="##language.tags">Language Tags</a></li></ul></li><li><a href="##rfc.section.8.6">8.6.</a>&nbsp;&nbsp;&nbsp;<a href="##field.content-length">Content-Length</a></li><li><a href="##rfc.section.8.7">8.7.</a>&nbsp;&nbsp;&nbsp;<a href="##field.content-location">Content-Location</a></li><li><a href="##rfc.section.8.8">8.8.</a>&nbsp;&nbsp;&nbsp;<a href="##response.validator">Validator Fields</a><ul><li><a href="##rfc.section.8.8.1">8.8.1.</a>&nbsp;&nbsp;&nbsp;<a href="##weak.and.strong.validators">Weak versus Strong</a></li><li><a href="##rfc.section.8.8.2">8.8.2.</a>&nbsp;&nbsp;&nbsp;<a href="##field.last-modified">Last-Modified</a><ul><li><a href="##rfc.section.8.8.2.1">8.8.2.1.</a>&nbsp;&nbsp;&nbsp;<a href="##lastmod.generation">Generation</a></li><li><a href="##rfc.section.8.8.2.2">8.8.2.2.</a>&nbsp;&nbsp;&nbsp;<a href="##lastmod.comparison">Comparison</a></li></ul></li><li><a href="##rfc.section.8.8.3">8.8.3.</a>&nbsp;&nbsp;&nbsp;<a href="##field.etag">ETag</a><ul><li><a href="##rfc.section.8.8.3.1">8.8.3.1.</a>&nbsp;&nbsp;&nbsp;<a href="##entity.tag.generation">Generation</a></li><li><a href="##rfc.section.8.8.3.2">8.8.3.2.</a>&nbsp;&nbsp;&nbsp;<a href="##entity.tag.comparison">Comparison</a></li><li><a href="##rfc.section.8.8.3.3">8.8.3.3.</a>&nbsp;&nbsp;&nbsp;<a href="##example.entity.tag.vs.conneg">Example: Entity Tags Varying on Content-Negotiated Resources</a></li></ul></li></ul></li></ul></li><li><a href="##rfc.section.9">9.</a>&nbsp;&nbsp;&nbsp;<a href="##methods">Methods</a><ul><li><a href="##rfc.section.9.1">9.1.</a>&nbsp;&nbsp;&nbsp;<a href="##method.overview">Overview</a></li><li><a href="##rfc.section.9.2">9.2.</a>&nbsp;&nbsp;&nbsp;<a href="##method.properties">Common Method Properties</a><ul><li><a href="##rfc.section.9.2.1">9.2.1.</a>&nbsp;&nbsp;&nbsp;<a href="##safe.methods">Safe Methods</a></li><li><a href="##rfc.section.9.2.2">9.2.2.</a>&nbsp;&nbsp;&nbsp;<a href="##idempotent.methods">Idempotent Methods</a></li><li><a href="##rfc.section.9.2.3">9.2.3.</a>&nbsp;&nbsp;&nbsp;<a href="##cacheable.methods">Methods and Caching</a></li></ul></li><li><a href="##rfc.section.9.3">9.3.</a>&nbsp;&nbsp;&nbsp;<a href="##method.definitions">Method Definitions</a><ul><li><a href="##rfc.section.9.3.1">9.3.1.</a>&nbsp;&nbsp;&nbsp;<a href="##GET">GET</a></li><li><a href="##rfc.section.9.3.2">9.3.2.</a>&nbsp;&nbsp;&nbsp;<a href="##HEAD">HEAD</a></li><li><a href="##rfc.section.9.3.3">9.3.3.</a>&nbsp;&nbsp;&nbsp;<a href="##POST">POST</a></li><li><a href="##rfc.section.9.3.4">9.3.4.</a>&nbsp;&nbsp;&nbsp;<a href="##PUT">PUT</a></li><li><a href="##rfc.section.9.3.5">9.3.5.</a>&nbsp;&nbsp;&nbsp;<a href="##DELETE">DELETE</a></li><li><a href="##rfc.section.9.3.6">9.3.6.</a>&nbsp;&nbsp;&nbsp;<a href="##CONNECT">CONNECT</a></li><li><a href="##rfc.section.9.3.7">9.3.7.</a>&nbsp;&nbsp;&nbsp;<a href="##OPTIONS">OPTIONS</a></li><li><a href="##rfc.section.9.3.8">9.3.8.</a>&nbsp;&nbsp;&nbsp;<a href="##TRACE">TRACE</a></li></ul></li></ul></li><li><a href="##rfc.section.10">10.</a>&nbsp;&nbsp;&nbsp;<a href="##context">Message Context</a><ul><li><a href="##rfc.section.10.1">10.1.</a>&nbsp;&nbsp;&nbsp;<a href="##request.context">Request Context Fields</a><ul><li><a href="##rfc.section.10.1.1">10.1.1.</a>&nbsp;&nbsp;&nbsp;<a href="##field.expect">Expect</a></li><li><a href="##rfc.section.10.1.2">10.1.2.</a>&nbsp;&nbsp;&nbsp;<a href="##field.from">From</a></li><li><a href="##rfc.section.10.1.3">10.1.3.</a>&nbsp;&nbsp;&nbsp;<a href="##field.referer">Referer</a></li><li><a href="##rfc.section.10.1.4">10.1.4.</a>&nbsp;&nbsp;&nbsp;<a href="##field.te">TE</a></li><li><a href="##rfc.section.10.1.5">10.1.5.</a>&nbsp;&nbsp;&nbsp;<a href="##field.user-agent">User-Agent</a></li></ul></li><li><a href="##rfc.section.10.2">10.2.</a>&nbsp;&nbsp;&nbsp;<a href="##response.context">Response Context Fields</a><ul><li><a href="##rfc.section.10.2.1">10.2.1.</a>&nbsp;&nbsp;&nbsp;<a href="##field.allow">Allow</a></li><li><a href="##rfc.section.10.2.2">10.2.2.</a>&nbsp;&nbsp;&nbsp;<a href="##field.location">Location</a></li><li><a href="##rfc.section.10.2.3">10.2.3.</a>&nbsp;&nbsp;&nbsp;<a href="##field.retry-after">Retry-After</a></li><li><a href="##rfc.section.10.2.4">10.2.4.</a>&nbsp;&nbsp;&nbsp;<a href="##field.server">Server</a></li></ul></li></ul></li><li><a href="##rfc.section.11">11.</a>&nbsp;&nbsp;&nbsp;<a href="##authentication">HTTP Authentication</a><ul><li><a href="##rfc.section.11.1">11.1.</a>&nbsp;&nbsp;&nbsp;<a href="##auth.scheme">Authentication Scheme</a></li><li><a href="##rfc.section.11.2">11.2.</a>&nbsp;&nbsp;&nbsp;<a href="##auth.params">Authentication Parameters</a></li><li><a href="##rfc.section.11.3">11.3.</a>&nbsp;&nbsp;&nbsp;<a href="##challenge.and.response">Challenge and Response</a></li><li><a href="##rfc.section.11.4">11.4.</a>&nbsp;&nbsp;&nbsp;<a href="##credentials">Credentials</a></li><li><a href="##rfc.section.11.5">11.5.</a>&nbsp;&nbsp;&nbsp;<a href="##protection.space">Establishing a Protection Space (Realm)</a></li><li><a href="##rfc.section.11.6">11.6.</a>&nbsp;&nbsp;&nbsp;<a href="##auth.user.origin.server">Authenticating Users to Origin Servers</a><ul><li><a href="##rfc.section.11.6.1">11.6.1.</a>&nbsp;&nbsp;&nbsp;<a href="##field.www-authenticate">WWW-Authenticate</a></li><li><a href="##rfc.section.11.6.2">11.6.2.</a>&nbsp;&nbsp;&nbsp;<a href="##field.authorization">Authorization</a></li><li><a href="##rfc.section.11.6.3">11.6.3.</a>&nbsp;&nbsp;&nbsp;<a href="##field.authentication-info">Authentication-Info</a></li></ul></li><li><a href="##rfc.section.11.7">11.7.</a>&nbsp;&nbsp;&nbsp;<a href="##auth.client.proxy">Authenticating Clients to Proxies</a><ul><li><a href="##rfc.section.11.7.1">11.7.1.</a>&nbsp;&nbsp;&nbsp;<a href="##field.proxy-authenticate">Proxy-Authenticate</a></li><li><a href="##rfc.section.11.7.2">11.7.2.</a>&nbsp;&nbsp;&nbsp;<a href="##field.proxy-authorization">Proxy-Authorization</a></li><li><a href="##rfc.section.11.7.3">11.7.3.</a>&nbsp;&nbsp;&nbsp;<a href="##field.proxy-authentication-info">Proxy-Authentication-Info</a></li></ul></li></ul></li><li><a href="##rfc.section.12">12.</a>&nbsp;&nbsp;&nbsp;<a href="##content.negotiation">Content Negotiation</a><ul><li><a href="##rfc.section.12.1">12.1.</a>&nbsp;&nbsp;&nbsp;<a href="##proactive.negotiation">Proactive Negotiation</a></li><li><a href="##rfc.section.12.2">12.2.</a>&nbsp;&nbsp;&nbsp;<a href="##reactive.negotiation">Reactive Negotiation</a></li><li><a href="##rfc.section.12.3">12.3.</a>&nbsp;&nbsp;&nbsp;<a href="##request.content.negotiation">Request Content Negotiation</a></li><li><a href="##rfc.section.12.4">12.4.</a>&nbsp;&nbsp;&nbsp;<a href="##conneg.features">Content Negotiation Field Features</a><ul><li><a href="##rfc.section.12.4.1">12.4.1.</a>&nbsp;&nbsp;&nbsp;<a href="##conneg.absent">Absence</a></li><li><a href="##rfc.section.12.4.2">12.4.2.</a>&nbsp;&nbsp;&nbsp;<a href="##quality.values">Quality Values</a></li><li><a href="##rfc.section.12.4.3">12.4.3.</a>&nbsp;&nbsp;&nbsp;<a href="##wildcard.values">Wildcard Values</a></li></ul></li><li><a href="##rfc.section.12.5">12.5.</a>&nbsp;&nbsp;&nbsp;<a href="##conneg.fields">Content Negotiation Fields</a><ul><li><a href="##rfc.section.12.5.1">12.5.1.</a>&nbsp;&nbsp;&nbsp;<a href="##field.accept">Accept</a></li><li><a href="##rfc.section.12.5.2">12.5.2.</a>&nbsp;&nbsp;&nbsp;<a href="##field.accept-charset">Accept-Charset</a></li><li><a href="##rfc.section.12.5.3">12.5.3.</a>&nbsp;&nbsp;&nbsp;<a href="##field.accept-encoding">Accept-Encoding</a></li><li><a href="##rfc.section.12.5.4">12.5.4.</a>&nbsp;&nbsp;&nbsp;<a href="##field.accept-language">Accept-Language</a></li><li><a href="##rfc.section.12.5.5">12.5.5.</a>&nbsp;&nbsp;&nbsp;<a href="##field.vary">Vary</a></li></ul></li></ul></li><li><a href="##rfc.section.13">13.</a>&nbsp;&nbsp;&nbsp;<a href="##conditional.requests">Conditional Requests</a><ul><li><a href="##rfc.section.13.1">13.1.</a>&nbsp;&nbsp;&nbsp;<a href="##preconditions">Preconditions</a><ul><li><a href="##rfc.section.13.1.1">13.1.1.</a>&nbsp;&nbsp;&nbsp;<a href="##field.if-match">If-Match</a></li><li><a href="##rfc.section.13.1.2">13.1.2.</a>&nbsp;&nbsp;&nbsp;<a href="##field.if-none-match">If-None-Match</a></li><li><a href="##rfc.section.13.1.3">13.1.3.</a>&nbsp;&nbsp;&nbsp;<a href="##field.if-modified-since">If-Modified-Since</a></li><li><a href="##rfc.section.13.1.4">13.1.4.</a>&nbsp;&nbsp;&nbsp;<a href="##field.if-unmodified-since">If-Unmodified-Since</a></li><li><a href="##rfc.section.13.1.5">13.1.5.</a>&nbsp;&nbsp;&nbsp;<a href="##field.if-range">If-Range</a></li></ul></li><li><a href="##rfc.section.13.2">13.2.</a>&nbsp;&nbsp;&nbsp;<a href="##evaluation">Evaluation of Preconditions</a><ul><li><a href="##rfc.section.13.2.1">13.2.1.</a>&nbsp;&nbsp;&nbsp;<a href="##when.to.evaluate">When to Evaluate</a></li><li><a href="##rfc.section.13.2.2">13.2.2.</a>&nbsp;&nbsp;&nbsp;<a href="##precedence">Precedence of Preconditions</a></li></ul></li></ul></li><li><a href="##rfc.section.14">14.</a>&nbsp;&nbsp;&nbsp;<a href="##range.requests">Range Requests</a><ul><li><a href="##rfc.section.14.1">14.1.</a>&nbsp;&nbsp;&nbsp;<a href="##range.units">Range Units</a><ul><li><a href="##rfc.section.14.1.1">14.1.1.</a>&nbsp;&nbsp;&nbsp;<a href="##range.specifiers">Range Specifiers</a></li><li><a href="##rfc.section.14.1.2">14.1.2.</a>&nbsp;&nbsp;&nbsp;<a href="##byte.ranges">Byte Ranges</a></li></ul></li><li><a href="##rfc.section.14.2">14.2.</a>&nbsp;&nbsp;&nbsp;<a href="##field.range">Range</a></li><li><a href="##rfc.section.14.3">14.3.</a>&nbsp;&nbsp;&nbsp;<a href="##field.accept-ranges">Accept-Ranges</a></li><li><a href="##rfc.section.14.4">14.4.</a>&nbsp;&nbsp;&nbsp;<a href="##field.content-range">Content-Range</a></li><li><a href="##rfc.section.14.5">14.5.</a>&nbsp;&nbsp;&nbsp;<a href="##partial.PUT">Partial PUT</a></li><li><a href="##rfc.section.14.6">14.6.</a>&nbsp;&nbsp;&nbsp;<a href="##multipart.byteranges">Media Type multipart/byteranges</a></li></ul></li><li><a href="##rfc.section.15">15.</a>&nbsp;&nbsp;&nbsp;<a href="##status.codes">Status Codes</a><ul><li><a href="##rfc.section.15.1">15.1.</a>&nbsp;&nbsp;&nbsp;<a href="##overview.of.status.codes">Overview of Status Codes</a></li><li><a href="##rfc.section.15.2">15.2.</a>&nbsp;&nbsp;&nbsp;<a href="##status.1xx">Informational 1xx</a><ul><li><a href="##rfc.section.15.2.1">15.2.1.</a>&nbsp;&nbsp;&nbsp;<a href="##status.100">100 Continue</a></li><li><a href="##rfc.section.15.2.2">15.2.2.</a>&nbsp;&nbsp;&nbsp;<a href="##status.101">101 Switching Protocols</a></li></ul></li><li><a href="##rfc.section.15.3">15.3.</a>&nbsp;&nbsp;&nbsp;<a href="##status.2xx">Successful 2xx</a><ul><li><a href="##rfc.section.15.3.1">15.3.1.</a>&nbsp;&nbsp;&nbsp;<a href="##status.200">200 OK</a></li><li><a href="##rfc.section.15.3.2">15.3.2.</a>&nbsp;&nbsp;&nbsp;<a href="##status.201">201 Created</a></li><li><a href="##rfc.section.15.3.3">15.3.3.</a>&nbsp;&nbsp;&nbsp;<a href="##status.202">202 Accepted</a></li><li><a href="##rfc.section.15.3.4">15.3.4.</a>&nbsp;&nbsp;&nbsp;<a href="##status.203">203 Non-Authoritative Information</a></li><li><a href="##rfc.section.15.3.5">15.3.5.</a>&nbsp;&nbsp;&nbsp;<a href="##status.204">204 No Content</a></li><li><a href="##rfc.section.15.3.6">15.3.6.</a>&nbsp;&nbsp;&nbsp;<a href="##status.205">205 Reset Content</a></li><li><a href="##rfc.section.15.3.7">15.3.7.</a>&nbsp;&nbsp;&nbsp;<a href="##status.206">206 Partial Content</a><ul><li><a href="##rfc.section.15.3.7.1">15.3.7.1.</a>&nbsp;&nbsp;&nbsp;<a href="##partial.single">Single Part</a></li><li><a href="##rfc.section.15.3.7.2">15.3.7.2.</a>&nbsp;&nbsp;&nbsp;<a href="##partial.multipart">Multiple Parts</a></li><li><a href="##rfc.section.15.3.7.3">15.3.7.3.</a>&nbsp;&nbsp;&nbsp;<a href="##combining.byte.ranges">Combining Parts</a></li></ul></li></ul></li><li><a href="##rfc.section.15.4">15.4.</a>&nbsp;&nbsp;&nbsp;<a href="##status.3xx">Redirection 3xx</a><ul><li><a href="##rfc.section.15.4.1">15.4.1.</a>&nbsp;&nbsp;&nbsp;<a href="##status.300">300 Multiple Choices</a></li><li><a href="##rfc.section.15.4.2">15.4.2.</a>&nbsp;&nbsp;&nbsp;<a href="##status.301">301 Moved Permanently</a></li><li><a href="##rfc.section.15.4.3">15.4.3.</a>&nbsp;&nbsp;&nbsp;<a href="##status.302">302 Found</a></li><li><a href="##rfc.section.15.4.4">15.4.4.</a>&nbsp;&nbsp;&nbsp;<a href="##status.303">303 See Other</a></li><li><a href="##rfc.section.15.4.5">15.4.5.</a>&nbsp;&nbsp;&nbsp;<a href="##status.304">304 Not Modified</a></li><li><a href="##rfc.section.15.4.6">15.4.6.</a>&nbsp;&nbsp;&nbsp;<a href="##status.305">305 Use Proxy</a></li><li><a href="##rfc.section.15.4.7">15.4.7.</a>&nbsp;&nbsp;&nbsp;<a href="##status.306">306 (Unused)</a></li><li><a href="##rfc.section.15.4.8">15.4.8.</a>&nbsp;&nbsp;&nbsp;<a href="##status.307">307 Temporary Redirect</a></li><li><a href="##rfc.section.15.4.9">15.4.9.</a>&nbsp;&nbsp;&nbsp;<a href="##status.308">308 Permanent Redirect</a></li></ul></li><li><a href="##rfc.section.15.5">15.5.</a>&nbsp;&nbsp;&nbsp;<a href="##status.4xx">Client Error 4xx</a><ul><li><a href="##rfc.section.15.5.1">15.5.1.</a>&nbsp;&nbsp;&nbsp;<a href="##status.400">400 Bad Request</a></li><li><a href="##rfc.section.15.5.2">15.5.2.</a>&nbsp;&nbsp;&nbsp;<a href="##status.401">401 Unauthorized</a></li><li><a href="##rfc.section.15.5.3">15.5.3.</a>&nbsp;&nbsp;&nbsp;<a href="##status.402">402 Payment Required</a></li><li><a href="##rfc.section.15.5.4">15.5.4.</a>&nbsp;&nbsp;&nbsp;<a href="##status.403">403 Forbidden</a></li><li><a href="##rfc.section.15.5.5">15.5.5.</a>&nbsp;&nbsp;&nbsp;<a href="##status.404">404 Not Found</a></li><li><a href="##rfc.section.15.5.6">15.5.6.</a>&nbsp;&nbsp;&nbsp;<a href="##status.405">405 Method Not Allowed</a></li><li><a href="##rfc.section.15.5.7">15.5.7.</a>&nbsp;&nbsp;&nbsp;<a href="##status.406">406 Not Acceptable</a></li><li><a href="##rfc.section.15.5.8">15.5.8.</a>&nbsp;&nbsp;&nbsp;<a href="##status.407">407 Proxy Authentication Required</a></li><li><a href="##rfc.section.15.5.9">15.5.9.</a>&nbsp;&nbsp;&nbsp;<a href="##status.408">408 Request Timeout</a></li><li><a href="##rfc.section.15.5.10">15.5.10.</a>&nbsp;&nbsp;&nbsp;<a href="##status.409">409 Conflict</a></li><li><a href="##rfc.section.15.5.11">15.5.11.</a>&nbsp;&nbsp;&nbsp;<a href="##status.410">410 Gone</a></li><li><a href="##rfc.section.15.5.12">15.5.12.</a>&nbsp;&nbsp;&nbsp;<a href="##status.411">411 Length Required</a></li><li><a href="##rfc.section.15.5.13">15.5.13.</a>&nbsp;&nbsp;&nbsp;<a href="##status.412">412 Precondition Failed</a></li><li><a href="##rfc.section.15.5.14">15.5.14.</a>&nbsp;&nbsp;&nbsp;<a href="##status.413">413 Content Too Large</a></li><li><a href="##rfc.section.15.5.15">15.5.15.</a>&nbsp;&nbsp;&nbsp;<a href="##status.414">414 URI Too Long</a></li><li><a href="##rfc.section.15.5.16">15.5.16.</a>&nbsp;&nbsp;&nbsp;<a href="##status.415">415 Unsupported Media Type</a></li><li><a href="##rfc.section.15.5.17">15.5.17.</a>&nbsp;&nbsp;&nbsp;<a href="##status.416">416 Range Not Satisfiable</a></li><li><a href="##rfc.section.15.5.18">15.5.18.</a>&nbsp;&nbsp;&nbsp;<a href="##status.417">417 Expectation Failed</a></li><li><a href="##rfc.section.15.5.19">15.5.19.</a>&nbsp;&nbsp;&nbsp;<a href="##status.418">418 (Unused)</a></li><li><a href="##rfc.section.15.5.20">15.5.20.</a>&nbsp;&nbsp;&nbsp;<a href="##status.421">421 Misdirected Request</a></li><li><a href="##rfc.section.15.5.21">15.5.21.</a>&nbsp;&nbsp;&nbsp;<a href="##status.422">422 Unprocessable Content</a></li><li><a href="##rfc.section.15.5.22">15.5.22.</a>&nbsp;&nbsp;&nbsp;<a href="##status.426">426 Upgrade Required</a></li></ul></li><li><a href="##rfc.section.15.6">15.6.</a>&nbsp;&nbsp;&nbsp;<a href="##status.5xx">Server Error 5xx</a><ul><li><a href="##rfc.section.15.6.1">15.6.1.</a>&nbsp;&nbsp;&nbsp;<a href="##status.500">500 Internal Server Error</a></li><li><a href="##rfc.section.15.6.2">15.6.2.</a>&nbsp;&nbsp;&nbsp;<a href="##status.501">501 Not Implemented</a></li><li><a href="##rfc.section.15.6.3">15.6.3.</a>&nbsp;&nbsp;&nbsp;<a href="##status.502">502 Bad Gateway</a></li><li><a href="##rfc.section.15.6.4">15.6.4.</a>&nbsp;&nbsp;&nbsp;<a href="##status.503">503 Service Unavailable</a></li><li><a href="##rfc.section.15.6.5">15.6.5.</a>&nbsp;&nbsp;&nbsp;<a href="##status.504">504 Gateway Timeout</a></li><li><a href="##rfc.section.15.6.6">15.6.6.</a>&nbsp;&nbsp;&nbsp;<a href="##status.505">505 HTTP Version Not Supported</a></li></ul></li></ul></li><li><a href="##rfc.section.16">16.</a>&nbsp;&nbsp;&nbsp;<a href="##extending">Extending HTTP</a><ul><li><a href="##rfc.section.16.1">16.1.</a>&nbsp;&nbsp;&nbsp;<a href="##method.extensibility">Method Extensibility</a><ul><li><a href="##rfc.section.16.1.1">16.1.1.</a>&nbsp;&nbsp;&nbsp;<a href="##method.registry">Method Registry</a></li><li><a href="##rfc.section.16.1.2">16.1.2.</a>&nbsp;&nbsp;&nbsp;<a href="##considerations.for.new.methods">Considerations for New Methods</a></li></ul></li><li><a href="##rfc.section.16.2">16.2.</a>&nbsp;&nbsp;&nbsp;<a href="##status.code.extensibility">Status Code Extensibility</a><ul><li><a href="##rfc.section.16.2.1">16.2.1.</a>&nbsp;&nbsp;&nbsp;<a href="##status.code.registry">Status Code Registry</a></li><li><a href="##rfc.section.16.2.2">16.2.2.</a>&nbsp;&nbsp;&nbsp;<a href="##considerations.for.new.status.codes">Considerations for New Status Codes</a></li></ul></li><li><a href="##rfc.section.16.3">16.3.</a>&nbsp;&nbsp;&nbsp;<a href="##fields.extensibility">Field Extensibility</a><ul><li><a href="##rfc.section.16.3.1">16.3.1.</a>&nbsp;&nbsp;&nbsp;<a href="##fields.registry">Field Name Registry</a></li><li><a href="##rfc.section.16.3.2">16.3.2.</a>&nbsp;&nbsp;&nbsp;<a href="##considerations.for.new.fields">Considerations for New Fields</a><ul><li><a href="##rfc.section.16.3.2.1">16.3.2.1.</a>&nbsp;&nbsp;&nbsp;<a href="##considerations.for.new.field.names">Considerations for New Field Names</a></li><li><a href="##rfc.section.16.3.2.2">16.3.2.2.</a>&nbsp;&nbsp;&nbsp;<a href="##considerations.for.new.field.values">Considerations for New Field Values</a></li></ul></li></ul></li><li><a href="##rfc.section.16.4">16.4.</a>&nbsp;&nbsp;&nbsp;<a href="##auth.scheme.extensibility">Authentication Scheme Extensibility</a><ul><li><a href="##rfc.section.16.4.1">16.4.1.</a>&nbsp;&nbsp;&nbsp;<a href="##auth.scheme.registry">Authentication Scheme Registry</a></li><li><a href="##rfc.section.16.4.2">16.4.2.</a>&nbsp;&nbsp;&nbsp;<a href="##considerations.for.new.auth.schemes">Considerations for New Authentication Schemes</a></li></ul></li><li><a href="##rfc.section.16.5">16.5.</a>&nbsp;&nbsp;&nbsp;<a href="##range.unit.extensibility">Range Unit Extensibility</a><ul><li><a href="##rfc.section.16.5.1">16.5.1.</a>&nbsp;&nbsp;&nbsp;<a href="##range.unit.registry">Range Unit Registry</a></li><li><a href="##rfc.section.16.5.2">16.5.2.</a>&nbsp;&nbsp;&nbsp;<a href="##considerations.for.new.range.units">Considerations for New Range Units</a></li></ul></li><li><a href="##rfc.section.16.6">16.6.</a>&nbsp;&nbsp;&nbsp;<a href="##content.coding.extensibility">Content Coding Extensibility</a><ul><li><a href="##rfc.section.16.6.1">16.6.1.</a>&nbsp;&nbsp;&nbsp;<a href="##content.coding.registry">Content Coding Registry</a></li><li><a href="##rfc.section.16.6.2">16.6.2.</a>&nbsp;&nbsp;&nbsp;<a href="##considerations.for.new.content.codings">Considerations for New Content Codings</a></li></ul></li><li><a href="##rfc.section.16.7">16.7.</a>&nbsp;&nbsp;&nbsp;<a href="##upgrade.token.registry">Upgrade Token Registry</a></li></ul></li><li><a href="##rfc.section.17">17.</a>&nbsp;&nbsp;&nbsp;<a href="##security.considerations">Security Considerations</a><ul><li><a href="##rfc.section.17.1">17.1.</a>&nbsp;&nbsp;&nbsp;<a href="##establishing.authority">Establishing Authority</a></li><li><a href="##rfc.section.17.2">17.2.</a>&nbsp;&nbsp;&nbsp;<a href="##risks.intermediaries">Risks of Intermediaries</a></li><li><a href="##rfc.section.17.3">17.3.</a>&nbsp;&nbsp;&nbsp;<a href="##attack.pathname">Attacks Based on File and Path Names</a></li><li><a href="##rfc.section.17.4">17.4.</a>&nbsp;&nbsp;&nbsp;<a href="##attack.injection">Attacks Based on Command, Code, or Query Injection</a></li><li><a href="##rfc.section.17.5">17.5.</a>&nbsp;&nbsp;&nbsp;<a href="##attack.protocol.element.length">Attacks via Protocol Element Length</a></li><li><a href="##rfc.section.17.6">17.6.</a>&nbsp;&nbsp;&nbsp;<a href="##compression.attacks">Attacks Using Shared-Dictionary Compression</a></li><li><a href="##rfc.section.17.7">17.7.</a>&nbsp;&nbsp;&nbsp;<a href="##personal.information">Disclosure of Personal Information</a></li><li><a href="##rfc.section.17.8">17.8.</a>&nbsp;&nbsp;&nbsp;<a href="##privacy.of.server.log.information">Privacy of Server Log Information</a></li><li><a href="##rfc.section.17.9">17.9.</a>&nbsp;&nbsp;&nbsp;<a href="##sensitive.information.in.uris">Disclosure of Sensitive Information in URIs</a></li><li><a href="##rfc.section.17.10">17.10.</a>&nbsp;&nbsp;&nbsp;<a href="##underscore.in.fields">Application Handling of Field Names</a></li><li><a href="##rfc.section.17.11">17.11.</a>&nbsp;&nbsp;&nbsp;<a href="##fragment.disclosure">Disclosure of Fragment after Redirects</a></li><li><a href="##rfc.section.17.12">17.12.</a>&nbsp;&nbsp;&nbsp;<a href="##disclosure.product.information">Disclosure of Product Information</a></li><li><a href="##rfc.section.17.13">17.13.</a>&nbsp;&nbsp;&nbsp;<a href="##fingerprinting">Browser Fingerprinting</a></li><li><a href="##rfc.section.17.14">17.14.</a>&nbsp;&nbsp;&nbsp;<a href="##security.validators">Validator Retention</a></li><li><a href="##rfc.section.17.15">17.15.</a>&nbsp;&nbsp;&nbsp;<a href="##overlapping.ranges">Denial-of-Service Attacks Using Range</a></li><li><a href="##rfc.section.17.16">17.16.</a>&nbsp;&nbsp;&nbsp;<a href="##security.auth">Authentication Considerations</a><ul><li><a href="##rfc.section.17.16.1">17.16.1.</a>&nbsp;&nbsp;&nbsp;<a href="##confidentiality.of.credentials">Confidentiality of Credentials</a></li><li><a href="##rfc.section.17.16.2">17.16.2.</a>&nbsp;&nbsp;&nbsp;<a href="##auth.credentials.and.idle.clients">Credentials and Idle Clients</a></li><li><a href="##rfc.section.17.16.3">17.16.3.</a>&nbsp;&nbsp;&nbsp;<a href="##protection.spaces">Protection Spaces</a></li><li><a href="##rfc.section.17.16.4">17.16.4.</a>&nbsp;&nbsp;&nbsp;<a href="##security.auth.add.resp">Additional Response Fields</a></li></ul></li></ul></li><li><a href="##rfc.section.18">18.</a>&nbsp;&nbsp;&nbsp;<a href="##IANA.considerations">IANA Considerations</a><ul><li><a href="##rfc.section.18.1">18.1.</a>&nbsp;&nbsp;&nbsp;<a href="##uri.scheme.registration">URI Scheme Registration</a></li><li><a href="##rfc.section.18.2">18.2.</a>&nbsp;&nbsp;&nbsp;<a href="##method.registration">Method Registration</a></li><li><a href="##rfc.section.18.3">18.3.</a>&nbsp;&nbsp;&nbsp;<a href="##status.code.registration">Status Code Registration</a></li><li><a href="##rfc.section.18.4">18.4.</a>&nbsp;&nbsp;&nbsp;<a href="##field.name.registration">Field Name Registration</a></li><li><a href="##rfc.section.18.5">18.5.</a>&nbsp;&nbsp;&nbsp;<a href="##auth.scheme.registration">Authentication Scheme Registration</a></li><li><a href="##rfc.section.18.6">18.6.</a>&nbsp;&nbsp;&nbsp;<a href="##content.coding.registration">Content Coding Registration</a></li><li><a href="##rfc.section.18.7">18.7.</a>&nbsp;&nbsp;&nbsp;<a href="##range.unit.registration">Range Unit Registration</a></li><li><a href="##rfc.section.18.8">18.8.</a>&nbsp;&nbsp;&nbsp;<a href="##media.type.reg">Media Type Registration</a></li><li><a href="##rfc.section.18.9">18.9.</a>&nbsp;&nbsp;&nbsp;<a href="##port.reg">Port Registration</a></li><li><a href="##rfc.section.18.10">18.10.</a>&nbsp;&nbsp;&nbsp;<a href="##upgrade.token.registration">Upgrade Token Registration</a></li></ul></li><li><a href="##rfc.section.19">19.</a>&nbsp;&nbsp;&nbsp;<a href="##rfc.references">References</a><ul><li><a href="##rfc.section.19.1">19.1.</a>&nbsp;&nbsp;&nbsp;<a href="##rfc.references.1">Normative References</a></li><li><a href="##rfc.section.19.2">19.2.</a>&nbsp;&nbsp;&nbsp;<a href="##rfc.references.2">Informative References</a></li></ul></li><li><a href="##rfc.section.A">Appendix A.</a>&nbsp;&nbsp;&nbsp;<a href="##collected.abnf">Collected ABNF</a></li><li><a href="##rfc.section.B">Appendix B.</a>&nbsp;&nbsp;&nbsp;<a href="##changes.from.previous.rfcs">Changes from Previous RFCs</a><ul><li><a href="##rfc.section.B.1">B.1.</a>&nbsp;&nbsp;&nbsp;<a href="##changes.from.rfc.2818">Changes from RFC 2818</a></li><li><a href="##rfc.section.B.2">B.2.</a>&nbsp;&nbsp;&nbsp;<a href="##changes.from.rfc.7230">Changes from RFC 7230</a></li><li><a href="##rfc.section.B.3">B.3.</a>&nbsp;&nbsp;&nbsp;<a href="##changes.from.rfc.7231">Changes from RFC 7231</a></li><li><a href="##rfc.section.B.4">B.4.</a>&nbsp;&nbsp;&nbsp;<a href="##changes.from.rfc.7232">Changes from RFC 7232</a></li><li><a href="##rfc.section.B.5">B.5.</a>&nbsp;&nbsp;&nbsp;<a href="##changes.from.rfc.7233">Changes from RFC 7233</a></li><li><a href="##rfc.section.B.6">B.6.</a>&nbsp;&nbsp;&nbsp;<a href="##changes.from.rfc.7235">Changes from RFC 7235</a></li><li><a href="##rfc.section.B.7">B.7.</a>&nbsp;&nbsp;&nbsp;<a href="##changes.from.rfc.7538">Changes from RFC 7538</a></li><li><a href="##rfc.section.B.8">B.8.</a>&nbsp;&nbsp;&nbsp;<a href="##changes.from.rfc.7615">Changes from RFC 7615</a></li><li><a href="##rfc.section.B.9">B.9.</a>&nbsp;&nbsp;&nbsp;<a href="##changes.from.rfc.7694">Changes from RFC 7694</a></li></ul></li><li><a href="##acks">Acknowledgements</a></li><li><a href="##rfc.index">Index</a></li><li><a href="##rfc.authors">Authors' Addresses</a></li></ul></div><section id="introduction"><h2 id="rfc.section.1" class="np"><a href="##rfc.section.1">1.</a>&nbsp;<a href="##introduction">Introduction</a></h2><section id="purpose"><h3 id="rfc.section.1.1"><a href="##rfc.section.1.1">1.1.</a>&nbsp;<a href="##purpose">Purpose</a></h3><div id="rfc.section.1.1.p.1"><p>The Hypertext Transfer Protocol (HTTP) is a family of stateless, application-level, request/response protocols that share a generic interface, extensible semantics, and self-descriptive messages to enable flexible interaction with network-based hypertext information systems.</p></div><div id="rfc.section.1.1.p.2"><p>HTTP hides the details of how a service is implemented by presenting a uniform interface to clients that is independent of the types of resources provided. Likewise, servers do not need to be aware of each client's purpose: a request can be considered in isolation rather than being associated with a specific type of client or a predetermined sequence of application steps. This allows general-purpose implementations to be used effectively in many different contexts, reduces interaction complexity, and enables independent evolution over time.</p></div><div id="rfc.section.1.1.p.3"><p>HTTP is also designed for use as an intermediation protocol, wherein proxies and gateways can translate non-HTTP information systems into a more generic interface.</p></div><div id="rfc.section.1.1.p.4"><p>One consequence of this flexibility is that the protocol cannot be defined in terms of what occurs behind the interface. Instead, we are limited to defining the syntax of communication, the intent of received communication, and the expected behavior of recipients. If the communication is considered in isolation, then successful actions ought to be reflected in corresponding changes to the observable interface provided by servers. However, since multiple clients might act in parallel and perhaps at cross-purposes, we cannot require that such changes be observable beyond the scope of a single response.</p></div></section><section id="history.and.evolution"><h3 id="rfc.section.1.2"><a href="##rfc.section.1.2">1.2.</a>&nbsp;<a href="##history.and.evolution">History and Evolution</a></h3><div id="rfc.section.1.2.p.1"><p>HTTP has been the primary information transfer protocol for the World Wide Web since its introduction in 1990. It began as a trivial mechanism for low-latency requests, with a single method (GET) to request transfer of a presumed hypertext document identified by a given pathname. As the Web grew, HTTP was extended to enclose requests and responses within messages, transfer arbitrary data formats using MIME-like media types, and route requests through intermediaries. These protocols were eventually defined as HTTP/0.9 and HTTP/1.0 (see <a href="##HTTP10" id="rfc.xref.HTTP10.1"><cite title="Hypertext Transfer Protocol -- HTTP/1.0">[HTTP/1.0]</cite></a>).</p></div><div id="rfc.section.1.2.p.2"><p>HTTP/1.1 was designed to refine the protocol's features while retaining compatibility with the existing text-based messaging syntax, improving its interoperability, scalability, and robustness across the Internet. This included length-based data delimiters for both fixed and dynamic (chunked) content, a consistent framework for content negotiation, opaque validators for conditional requests, cache controls for better cache consistency, range requests for partial updates, and default persistent connections. HTTP/1.1 was introduced in 1995 and published on the Standards Track in 1997 <a href="##RFC2068" id="rfc.xref.RFC2068.1"><cite title="Hypertext Transfer Protocol -- HTTP/1.1">[RFC2068]</cite></a>, revised in 1999 <a href="##RFC2616" id="rfc.xref.RFC2616.1"><cite title="Hypertext Transfer Protocol -- HTTP/1.1">[RFC2616]</cite></a>, and revised again in 2014 (<a href="##RFC7230" id="rfc.xref.RFC7230.1"><cite title="Hypertext Transfer Protocol (HTTP/1.1): Message Syntax and Routing">[RFC7230]</cite></a> through <a href="##RFC7235" id="rfc.xref.RFC7235.1"><cite title="Hypertext Transfer Protocol (HTTP/1.1): Authentication">[RFC7235]</cite></a>).</p></div><div id="rfc.section.1.2.p.3"><p>HTTP/2 (<a href="##HTTP2" id="rfc.xref.HTTP2.1"><cite title="HTTP/2">[HTTP/2]</cite></a>) introduced a multiplexed session layer on top of the existing TLS and TCP protocols for exchanging concurrent HTTP messages with efficient field compression and server push. HTTP/3 (<a href="##HTTP3" id="rfc.xref.HTTP3.1"><cite title="HTTP/3">[HTTP/3]</cite></a>) provides greater independence for concurrent messages by using QUIC as a secure multiplexed transport over UDP instead of TCP.</p></div><div id="rfc.section.1.2.p.4"><p>All three major versions of HTTP rely on the semantics defined by this document. They have not obsoleted each other because each one has specific benefits and limitations depending on the context of use. Implementations are expected to choose the most appropriate transport and messaging syntax for their particular context.</p></div><div id="rfc.section.1.2.p.5"><p>This revision of HTTP separates the definition of semantics (this document) and caching (<a href="##CACHING" id="rfc.xref.CACHING.1"><cite title="HTTP Caching">[CACHING]</cite></a>) from the current HTTP/1.1 messaging syntax (<a href="##HTTP11" id="rfc.xref.HTTP11.1"><cite title="HTTP/1.1">[HTTP/1.1]</cite></a>) to allow each major protocol version to progress independently while referring to the same core semantics.</p></div></section><section id="core.semantics"><h3 id="rfc.section.1.3"><a href="##rfc.section.1.3">1.3.</a>&nbsp;<a href="##core.semantics">Core Semantics</a></h3><div id="rfc.section.1.3.p.1"><p>HTTP provides a uniform interface for interacting with a resource (<a href="##resources" title="Resources">Section 3.1</a>) — regardless of its type, nature, or implementation — by sending messages that manipulate or transfer representations (<a href="##representations" title="Representations">Section 3.2</a>).</p></div><div id="rfc.section.1.3.p.2"><p>Each message is either a request or a response. A client constructs request messages that communicate its intentions and routes those messages toward an identified origin server. A server listens for requests, parses each message received, interprets the message semantics in relation to the identified target resource, and responds to that request with one or more response messages. The client examines received responses to see if its intentions were carried out, determining what to do next based on the status codes and content received.</p></div><div id="rfc.section.1.3.p.3"><p>HTTP semantics include the intentions defined by each request method (<a href="##methods" title="Methods">Section 9</a>), extensions to those semantics that might be described in request header fields, status codes that describe the response (<a href="##status.codes" title="Status Codes">Section 15</a>), and other control data and resource metadata that might be given in response fields.</p></div><div id="rfc.section.1.3.p.4"><p><span id="rfc.iref.c.1"></span>Semantics also include representation metadata that describe how content is intended to be interpreted by a recipient, request header fields that might influence content selection, and the various selection algorithms that are collectively referred to as <dfn>content negotiation</dfn> (<a href="##content.negotiation" title="Content Negotiation">Section 12</a>).</p></div></section><section id="specifications.obsoleted.by.this.document"><h3 id="rfc.section.1.4"><a href="##rfc.section.1.4">1.4.</a>&nbsp;<a href="##specifications.obsoleted.by.this.document">Specifications Obsoleted by This Document</a></h3><div class="table table-condensed table-striped"><table class="v3 tleft"><caption>Table 1</caption><thead><tr><th class="text-left">Title</th><th class="text-left">Reference</th><th class="text-left">See</th></tr></thead><tbody><tr><td class="text-left">HTTP Over TLS</td><td class="text-left"><a href="##RFC2818" id="rfc.xref.RFC2818.1"><cite title="HTTP Over TLS">[RFC2818]</cite></a></td><td class="text-left"><a href="##changes.from.rfc.2818" title="Changes from RFC 2818">B.1</a></td></tr><tr><td class="text-left">HTTP/1.1 Message Syntax and Routing [*]</td><td class="text-left"><a href="##RFC7230" id="rfc.xref.RFC7230.2"><cite title="Hypertext Transfer Protocol (HTTP/1.1): Message Syntax and Routing">[RFC7230]</cite></a></td><td class="text-left"><a href="##changes.from.rfc.7230" title="Changes from RFC 7230">B.2</a></td></tr><tr><td class="text-left">HTTP/1.1 Semantics and Content</td><td class="text-left"><a href="##RFC7231" id="rfc.xref.RFC7231.1"><cite title="Hypertext Transfer Protocol (HTTP/1.1): Semantics and Content">[RFC7231]</cite></a></td><td class="text-left"><a href="##changes.from.rfc.7231" title="Changes from RFC 7231">B.3</a></td></tr><tr><td class="text-left">HTTP/1.1 Conditional Requests</td><td class="text-left"><a href="##RFC7232" id="rfc.xref.RFC7232.1"><cite title="Hypertext Transfer Protocol (HTTP/1.1): Conditional Requests">[RFC7232]</cite></a></td><td class="text-left"><a href="##changes.from.rfc.7232" title="Changes from RFC 7232">B.4</a></td></tr><tr><td class="text-left">HTTP/1.1 Range Requests</td><td class="text-left"><a href="##RFC7233" id="rfc.xref.RFC7233.1"><cite title="Hypertext Transfer Protocol (HTTP/1.1): Range Requests">[RFC7233]</cite></a></td><td class="text-left"><a href="##changes.from.rfc.7233" title="Changes from RFC 7233">B.5</a></td></tr><tr><td class="text-left">HTTP/1.1 Authentication</td><td class="text-left"><a href="##RFC7235" id="rfc.xref.RFC7235.2"><cite title="Hypertext Transfer Protocol (HTTP/1.1): Authentication">[RFC7235]</cite></a></td><td class="text-left"><a href="##changes.from.rfc.7235" title="Changes from RFC 7235">B.6</a></td></tr><tr><td class="text-left">HTTP Status Code 308 (Permanent Redirect)</td><td class="text-left"><a href="##RFC7538" id="rfc.xref.RFC7538.1"><cite title="The Hypertext Transfer Protocol Status Code 308 (Permanent Redirect)">[RFC7538]</cite></a></td><td class="text-left"><a href="##changes.from.rfc.7538" title="Changes from RFC 7538">B.7</a></td></tr><tr><td class="text-left">HTTP Authentication-Info and Proxy-Authentication-Info Response Header Fields</td><td class="text-left"><a href="##RFC7615" id="rfc.xref.RFC7615.1"><cite title="HTTP Authentication-Info and Proxy-Authentication-Info Response Header Fields">[RFC7615]</cite></a></td><td class="text-left"><a href="##changes.from.rfc.7615" title="Changes from RFC 7615">B.8</a></td></tr><tr><td class="text-left">HTTP Client-Initiated Content-Encoding</td><td class="text-left"><a href="##RFC7694" id="rfc.xref.RFC7694.1"><cite title="Hypertext Transfer Protocol (HTTP) Client-Initiated Content-Encoding">[RFC7694]</cite></a></td><td class="text-left"><a href="##changes.from.rfc.7694" title="Changes from RFC 7694">B.9</a></td></tr></tbody></table></div><div id="rfc.section.1.4.p.1"><p>[*] This document only obsoletes the portions of <a href="##RFC7230" id="rfc.xref.RFC7230.3"><cite title="Hypertext Transfer Protocol (HTTP/1.1): Message Syntax and Routing">RFC 7230</cite></a> that are independent of the HTTP/1.1 messaging syntax and connection management; the remaining bits of <a href="##RFC7230" id="rfc.xref.RFC7230.4"><cite title="Hypertext Transfer Protocol (HTTP/1.1): Message Syntax and Routing">RFC 7230</cite></a> are obsoleted by "HTTP/1.1" <a href="##HTTP11" id="rfc.xref.HTTP11.2"><cite title="HTTP/1.1">[HTTP/1.1]</cite></a>.</p></div></section></section><section id="conformance"><h2 id="rfc.section.2"><a href="##rfc.section.2">2.</a>&nbsp;<a href="##conformance">Conformance</a></h2><section id="notation"><h3 id="rfc.section.2.1"><a href="##rfc.section.2.1">2.1.</a>&nbsp;<a href="##notation">Syntax Notation</a></h3><div id="rfc.section.2.1.p.1"><p>This specification uses the Augmented Backus-Naur Form (ABNF) notation of <a href="##RFC5234" id="rfc.xref.RFC5234.1"><cite title="Augmented BNF for Syntax Specifications: ABNF">[RFC5234]</cite></a>, extended with the notation for case-sensitivity in strings defined in <a href="##RFC7405" id="rfc.xref.RFC7405.1"><cite title="Case-Sensitive String Support in ABNF">[RFC7405]</cite></a>.</p></div><div id="rfc.section.2.1.p.2"><p>It also uses a list extension, defined in <a href="##abnf.extension" title="Lists (#rule ABNF Extension)">Section 5.6.1</a>, that allows for compact definition of comma-separated lists using a "#" operator (similar to how the "*" operator indicates repetition). <a href="##collected.abnf" title="Collected ABNF">Appendix A</a> shows the collected grammar with all list operators expanded to standard ABNF notation.</p></div><div id="rfc.section.2.1.p.3"><p>As a convention, ABNF rule names prefixed with "obs-" denote obsolete grammar rules that appear for historical reasons.</p></div><div id="rfc.section.2.1.p.4"><p id="core.rules">The following core rules are included by reference, as defined in <a href="https://www.rfc-editor.org/rfc/rfc5234.html#appendix-B.1">Appendix B.1</a> of <a href="##RFC5234" id="rfc.xref.RFC5234.2"><cite title="Augmented BNF for Syntax Specifications: ABNF">[RFC5234]</cite></a>: ALPHA (letters), CR (carriage return), CRLF (CR LF), CTL (controls), DIGIT (decimal 0-9), DQUOTE (double quote), HEXDIG (hexadecimal 0-9/A-F/a-f), HTAB (horizontal tab), LF (line feed), OCTET (any 8-bit sequence of data), SP (space), and VCHAR (any visible US-ASCII character).</p></div><div id="rfc.section.2.1.p.5"><p><a href="##fields.components" title="Common Rules for Defining Field Values">Section 5.6</a> defines some generic syntactic components for field values.</p></div><div id="rfc.section.2.1.p.6"><p>This specification uses the terms "character", "character encoding scheme", "charset", and "protocol element" as they are defined in <a href="##RFC6365" id="rfc.xref.RFC6365.1"><cite title="Terminology Used in Internationalization in the IETF">[RFC6365]</cite></a>.</p></div></section><section id="requirements.notation"><h3 id="rfc.section.2.2"><a href="##rfc.section.2.2">2.2.</a>&nbsp;<a href="##requirements.notation">Requirements Notation</a></h3><div id="rfc.section.2.2.p.1"><p>The key words "<em class="bcp14">MUST</em>", "<em class="bcp14">MUST NOT</em>", "<em class="bcp14">REQUIRED</em>", "<em class="bcp14">SHALL</em>", "<em class="bcp14">SHALL NOT</em>", "<em class="bcp14">SHOULD</em>", "<em class="bcp14">SHOULD NOT</em>", "<em class="bcp14">RECOMMENDED</em>", "<em class="bcp14">NOT RECOMMENDED</em>", "<em class="bcp14">MAY</em>", and "<em class="bcp14">OPTIONAL</em>" in this document are to be interpreted as described in BCP 14 <a href="##RFC2119" id="rfc.xref.RFC2119.1"><cite title="Key words for use in RFCs to Indicate Requirement Levels">[RFC2119]</cite></a> <a href="##RFC8174" id="rfc.xref.RFC8174.1"><cite title="Ambiguity of Uppercase vs Lowercase in RFC 2119 Key Words">[RFC8174]</cite></a> when, and only when, they appear in all capitals, as shown here.</p></div><div id="rfc.section.2.2.p.2"><p>This specification targets conformance criteria according to the role of a participant in HTTP communication. Hence, requirements are placed on senders, recipients, clients, servers, user agents, intermediaries, origin servers, proxies, gateways, or caches, depending on what behavior is being constrained by the requirement. Additional requirements are placed on implementations, resource owners, and protocol element registrations when they apply beyond the scope of a single communication.</p></div><div id="rfc.section.2.2.p.3"><p>The verb "generate" is used instead of "send" where a requirement applies only to implementations that create the protocol element, rather than an implementation that forwards a received element downstream.</p></div><div id="rfc.section.2.2.p.4"><p>An implementation is considered conformant if it complies with all of the requirements associated with the roles it partakes in HTTP.</p></div><div id="rfc.section.2.2.p.5"><p>A sender <em class="bcp14">MUST NOT</em> generate protocol elements that do not match the grammar defined by the corresponding ABNF rules. Within a given message, a sender <em class="bcp14">MUST NOT</em> generate protocol elements or syntax alternatives that are only allowed to be generated by participants in other roles (i.e., a role that the sender does not have for that message).</p></div><div id="rfc.section.2.2.p.6"><p>Conformance to HTTP includes both conformance to the particular messaging syntax of the protocol version in use and conformance to the semantics of protocol elements sent. For example, a client that claims conformance to HTTP/1.1 but fails to recognize the features required of HTTP/1.1 recipients will fail to interoperate with servers that adjust their responses in accordance with those claims. Features that reflect user choices, such as content negotiation and user-selected extensions, can impact application behavior beyond the protocol stream; sending protocol elements that inaccurately reflect a user's choices will confuse the user and inhibit choice.</p></div><div id="rfc.section.2.2.p.7"><p>When an implementation fails semantic conformance, recipients of that implementation's messages will eventually develop workarounds to adjust their behavior accordingly. A recipient <em class="bcp14">MAY</em> employ such workarounds while remaining conformant to this protocol if the workarounds are limited to the implementations at fault. For example, servers often scan portions of the User-Agent field value, and user agents often scan the Server field value, to adjust their own behavior with respect to known bugs or poorly chosen defaults.</p></div></section><section id="length.requirements"><h3 id="rfc.section.2.3"><a href="##rfc.section.2.3">2.3.</a>&nbsp;<a href="##length.requirements">Length Requirements</a></h3><div id="rfc.section.2.3.p.1"><p>A recipient <em class="bcp14">SHOULD</em> parse a received protocol element defensively, with only marginal expectations that the element will conform to its ABNF grammar and fit within a reasonable buffer size.</p></div><div id="rfc.section.2.3.p.2"><p>HTTP does not have specific length limitations for many of its protocol elements because the lengths that might be appropriate will vary widely, depending on the deployment context and purpose of the implementation. Hence, interoperability between senders and recipients depends on shared expectations regarding what is a reasonable length for each protocol element. Furthermore, what is commonly understood to be a reasonable length for some protocol elements has changed over the course of the past three decades of HTTP use and is expected to continue changing in the future.</p></div><div id="rfc.section.2.3.p.3"><p>At a minimum, a recipient <em class="bcp14">MUST</em> be able to parse and process protocol element lengths that are at least as long as the values that it generates for those same protocol elements in other messages. For example, an origin server that publishes very long URI references to its own resources needs to be able to parse and process those same references when received as a target URI.</p></div><div id="rfc.section.2.3.p.4"><p>Many received protocol elements are only parsed to the extent necessary to identify and forward that element downstream. For example, an intermediary might parse a received field into its field name and field value components, but then forward the field without further parsing inside the field value.</p></div></section><section id="error.handling"><h3 id="rfc.section.2.4"><a href="##rfc.section.2.4">2.4.</a>&nbsp;<a href="##error.handling">Error Handling</a></h3><div id="rfc.section.2.4.p.1"><p>A recipient <em class="bcp14">MUST</em> interpret a received protocol element according to the semantics defined for it by this specification, including extensions to this specification, unless the recipient has determined (through experience or configuration) that the sender incorrectly implements what is implied by those semantics. For example, an origin server might disregard the contents of a received <a href="##field.accept-encoding" class="smpl">Accept-Encoding</a> header field if inspection of the <a href="##field.user-agent" class="smpl">User-Agent</a> header field indicates a specific implementation version that is known to fail on receipt of certain content codings.</p></div><div id="rfc.section.2.4.p.2"><p>Unless noted otherwise, a recipient <em class="bcp14">MAY</em> attempt to recover a usable protocol element from an invalid construct. HTTP does not define specific error handling mechanisms except when they have a direct impact on security, since different applications of the protocol require different error handling strategies. For example, a Web browser might wish to transparently recover from a response where the <a href="##field.location" class="smpl">Location</a> header field doesn't parse according to the ABNF, whereas a systems control client might consider any form of error recovery to be dangerous.</p></div><div id="rfc.section.2.4.p.3"><p>Some requests can be automatically retried by a client in the event of an underlying connection failure, as described in <a href="##idempotent.methods" title="Idempotent Methods">Section 9.2.2</a>.</p></div></section><section id="protocol.version"><h3 id="rfc.section.2.5"><a href="##rfc.section.2.5">2.5.</a>&nbsp;<a href="##protocol.version">Protocol Version</a></h3><div id="rfc.section.2.5.p.1"><p>HTTP's version number consists of two decimal digits separated by a "." (period or decimal point). The first digit (major version) indicates the messaging syntax, whereas the second digit (minor version) indicates the highest minor version within that major version to which the sender is conformant (able to understand for future communication).</p></div><div id="rfc.section.2.5.p.2"><p>While HTTP's core semantics don't change between protocol versions, their expression "on the wire" can change, and so the HTTP version number changes when incompatible changes are made to the wire format. Additionally, HTTP allows incremental, backwards-compatible changes to be made to the protocol without changing its version through the use of defined extension points (<a href="##extending" title="Extending HTTP">Section 16</a>).</p></div><div id="rfc.section.2.5.p.3"><p>The protocol version as a whole indicates the sender's conformance with the set of requirements laid out in that version's corresponding specification(s). For example, the version "HTTP/1.1" is defined by the combined specifications of this document, "HTTP Caching" <a href="##CACHING" id="rfc.xref.CACHING.2"><cite title="HTTP Caching">[CACHING]</cite></a>, and "HTTP/1.1" <a href="##HTTP11" id="rfc.xref.HTTP11.3"><cite title="HTTP/1.1">[HTTP/1.1]</cite></a>.</p></div><div id="rfc.section.2.5.p.4"><p>HTTP's major version number is incremented when an incompatible message syntax is introduced. The minor number is incremented when changes made to the protocol have the effect of adding to the message semantics or implying additional capabilities of the sender.</p></div><div id="rfc.section.2.5.p.5"><p>The minor version advertises the sender's communication capabilities even when the sender is only using a backwards-compatible subset of the protocol, thereby letting the recipient know that more advanced features can be used in response (by servers) or in future requests (by clients).</p></div><div id="rfc.section.2.5.p.6"><p>When a major version of HTTP does not define any minor versions, the minor version "0" is implied. The "0" is used when referring to that protocol within elements that require a minor version identifier.</p></div></section></section><section id="terminology"><h2 id="rfc.section.3"><a href="##rfc.section.3">3.</a>&nbsp;<a href="##terminology">Terminology and Core Concepts</a></h2><div id="rfc.section.3.p.1"><p>HTTP was created for the World Wide Web (WWW) architecture and has evolved over time to support the scalability needs of a worldwide hypertext system. Much of that architecture is reflected in the terminology used to define HTTP.</p></div><section id="resources"><h3 id="rfc.section.3.1"><a href="##rfc.section.3.1">3.1.</a>&nbsp;<a href="##resources">Resources</a></h3><div id="rfc.section.3.1.p.1"><p>The target of an HTTP request is called a <dfn>resource</dfn>. HTTP does not limit the nature of a resource; it merely defines an interface that might be used to interact with resources. Most resources are identified by a Uniform Resource Identifier (URI), as described in <a href="##uri" title="Identifiers in HTTP">Section 4</a>.</p></div><div id="rfc.section.3.1.p.2"><p>One design goal of HTTP is to separate resource identification from request semantics, which is made possible by vesting the request semantics in the request method (<a href="##methods" title="Methods">Section 9</a>) and a few request-modifying header fields. A resource cannot treat a request in a manner inconsistent with the semantics of the method of the request. For example, though the URI of a resource might imply semantics that are not safe, a client can expect the resource to avoid actions that are unsafe when processing a request with a safe method (see <a href="##safe.methods" title="Safe Methods">Section 9.2.1</a>).</p></div><div id="rfc.section.3.1.p.3"><p>HTTP relies upon the Uniform Resource Identifier (URI) standard <a href="##URI" id="rfc.xref.URI.1"><cite title="Uniform Resource Identifier (URI): Generic Syntax">[URI]</cite></a> to indicate the target resource (<a href="##target.resource" title="Determining the Target Resource">Section 7.1</a>) and relationships between resources.</p></div></section><section id="representations"><h3 id="rfc.section.3.2"><a href="##rfc.section.3.2">3.2.</a>&nbsp;<a href="##representations">Representations</a></h3><div id="rfc.section.3.2.p.1"><p>A <dfn>representation</dfn> is information that is intended to reflect a past, current, or desired state of a given resource, in a format that can be readily communicated via the protocol. A representation consists of a set of representation metadata and a potentially unbounded stream of representation data (<a href="##representation.data.and.metadata" title="Representation Data and Metadata">Section 8</a>).</p></div><div id="rfc.section.3.2.p.2"><p>HTTP allows "information hiding" behind its uniform interface by defining communication with respect to a transferable representation of the resource state, rather than transferring the resource itself. This allows the resource identified by a URI to be anything, including temporal functions like "the current weather in Laguna Beach", while potentially providing information that represents that resource at the time a message is generated <a href="##REST" id="rfc.xref.REST.1"><cite title="Architectural Styles and the Design of Network-based Software Architectures">[REST]</cite></a>.</p></div><div id="rfc.section.3.2.p.3"><p>The uniform interface is similar to a window through which one can observe and act upon a thing only through the communication of messages to an independent actor on the other side. A shared abstraction is needed to represent ("take the place of") the current or desired state of that thing in our communications. When a representation is hypertext, it can provide both a representation of the resource state and processing instructions that help guide the recipient's future interactions.</p></div><div id="rfc.section.3.2.p.4"><p id="selected.representation"><span id="rfc.iref.s.1"></span>A <a href="##target.resource" class="smpl">target resource</a> might be provided with, or be capable of generating, multiple representations that are each intended to reflect the resource's current state. An algorithm, usually based on <a href="##content.negotiation" class="smpl">content negotiation</a> (<a href="##content.negotiation" title="Content Negotiation">Section 12</a>), would be used to select one of those representations as being most applicable to a given request. This <dfn>selected representation</dfn> provides the data and metadata for evaluating conditional requests (<a href="##conditional.requests" title="Conditional Requests">Section 13</a>) and constructing the content for <a href="##status.200" class="smpl">200 (OK)</a>, <a href="##status.206" class="smpl">206 (Partial Content)</a>, and <a href="##status.304" class="smpl">304 (Not Modified)</a> responses to GET (<a href="##GET" id="rfc.xref.GET.1" title="GET">Section 9.3.1</a>).</p></div></section><section id="connections"><h3 id="rfc.section.3.3"><a href="##rfc.section.3.3">3.3.</a>&nbsp;<a href="##connections">Connections, Clients, and Servers</a></h3><div id="rfc.section.3.3.p.1"><p>HTTP is a client/server protocol that operates over a reliable transport- or session-layer <dfn>connection</dfn>.</p></div><div id="rfc.section.3.3.p.2"><p>An HTTP <dfn>client</dfn> is a program that establishes a connection to a server for the purpose of sending one or more HTTP requests. An HTTP <dfn>server</dfn> is a program that accepts connections in order to service HTTP requests by sending HTTP responses.</p></div><div id="rfc.section.3.3.p.3"><p>The terms client and server refer only to the roles that these programs perform for a particular connection. The same program might act as a client on some connections and a server on others.</p></div><div id="rfc.section.3.3.p.4"><p>HTTP is defined as a stateless protocol, meaning that each request message's semantics can be understood in isolation, and that the relationship between connections and messages on them has no impact on the interpretation of those messages. For example, a CONNECT request (<a href="##CONNECT" id="rfc.xref.CONNECT.1" title="CONNECT">Section 9.3.6</a>) or a request with the Upgrade header field (<a href="##field.upgrade" id="rfc.xref.field.upgrade.1" title="Upgrade">Section 7.8</a>) can occur at any time, not just in the first message on a connection. Many implementations depend on HTTP's stateless design in order to reuse proxied connections or dynamically load balance requests across multiple servers.</p></div><div id="rfc.section.3.3.p.5"><p>As a result, a server <em class="bcp14">MUST NOT</em> assume that two requests on the same connection are from the same user agent unless the connection is secured and specific to that agent. Some non-standard HTTP extensions (e.g., <a href="##RFC4559" id="rfc.xref.RFC4559.1"><cite title="SPNEGO-based Kerberos and NTLM HTTP Authentication in Microsoft Windows">[RFC4559]</cite></a>) have been known to violate this requirement, resulting in security and interoperability problems.</p></div></section><section id="messages"><h3 id="rfc.section.3.4"><a href="##rfc.section.3.4">3.4.</a>&nbsp;<a href="##messages">Messages</a></h3><div id="rfc.section.3.4.p.1"><p>HTTP is a stateless request/response protocol for exchanging <dfn>messages</dfn> across a <a href="##connections" class="smpl">connection</a>. The terms <dfn>sender</dfn> and <dfn>recipient</dfn> refer to any implementation that sends or receives a given message, respectively.</p></div><div id="rfc.section.3.4.p.2"><p>A client sends requests to a server in the form of a <dfn>request</dfn> message with a method (<a href="##methods" title="Methods">Section 9</a>) and request target (<a href="##target.resource" title="Determining the Target Resource">Section 7.1</a>). The request might also contain header fields (<a href="##header.fields" title="Header Fields">Section 6.3</a>) for request modifiers, client information, and representation metadata, content (<a href="##content" title="Content">Section 6.4</a>) intended for processing in accordance with the method, and trailer fields (<a href="##trailer.fields" title="Trailer Fields">Section 6.5</a>) to communicate information collected while sending the content.</p></div><div id="rfc.section.3.4.p.3"><p>A server responds to a client's request by sending one or more <dfn>response</dfn> messages, each including a status code (<a href="##status.codes" title="Status Codes">Section 15</a>). The response might also contain header fields for server information, resource metadata, and representation metadata, content to be interpreted in accordance with the status code, and trailer fields to communicate information collected while sending the content.</p></div></section><section id="user.agent"><h3 id="rfc.section.3.5"><a href="##rfc.section.3.5">3.5.</a>&nbsp;<a href="##user.agent">User Agents</a></h3><div id="rfc.section.3.5.p.1"><p>The term <dfn>user agent</dfn> refers to any of the various client programs that initiate a request.</p></div><div id="rfc.section.3.5.p.2"><p>The most familiar form of user agent is the general-purpose Web browser, but that's only a small percentage of implementations. Other common user agents include spiders (web-traversing robots), command-line tools, billboard screens, household appliances, scales, light bulbs, firmware update scripts, mobile apps, and communication devices in a multitude of shapes and sizes.</p></div><div id="rfc.section.3.5.p.3"><p>Being a user agent does not imply that there is a human user directly interacting with the software agent at the time of a request. In many cases, a user agent is installed or configured to run in the background and save its results for later inspection (or save only a subset of those results that might be interesting or erroneous). Spiders, for example, are typically given a start URI and configured to follow certain behavior while crawling the Web as a hypertext graph.</p></div><div id="rfc.section.3.5.p.4"><p>Many user agents cannot, or choose not to, make interactive suggestions to their user or provide adequate warning for security or privacy concerns. In the few cases where this specification requires reporting of errors to the user, it is acceptable for such reporting to only be observable in an error console or log file. Likewise, requirements that an automated action be confirmed by the user before proceeding might be met via advance configuration choices, run-time options, or simple avoidance of the unsafe action; confirmation does not imply any specific user interface or interruption of normal processing if the user has already made that choice.</p></div></section><section id="origin.server"><h3 id="rfc.section.3.6"><a href="##rfc.section.3.6">3.6.</a>&nbsp;<a href="##origin.server">Origin Server</a></h3><div id="rfc.section.3.6.p.1"><p>The term <dfn>origin server</dfn> refers to a program that can originate authoritative responses for a given target resource.</p></div><div id="rfc.section.3.6.p.2"><p>The most familiar form of origin server are large public websites. However, like user agents being equated with browsers, it is easy to be misled into thinking that all origin servers are alike. Common origin servers also include home automation units, configurable networking components, office machines, autonomous robots, news feeds, traffic cameras, real-time ad selectors, and video-on-demand platforms.</p></div><div id="rfc.section.3.6.p.3"><p>Most HTTP communication consists of a retrieval request (GET) for a representation of some resource identified by a URI. In the simplest case, this might be accomplished via a single bidirectional connection (===) between the user agent (UA) and the origin server (O).</p></div><div id="rfc.figure.u.1"><div><pre class="drawing">         request   &gt;
    <b>UA</b> ======================================= <b>O</b>
                                &lt;   response
</pre></div></div></section><section id="intermediaries"><h3 id="rfc.section.3.7"><a href="##rfc.section.3.7">3.7.</a>&nbsp;<a href="##intermediaries">Intermediaries</a></h3><div id="rfc.section.3.7.p.1"><p>HTTP enables the use of intermediaries to satisfy requests through a chain of connections. There are three common forms of HTTP <dfn>intermediary</dfn>: proxy, gateway, and tunnel. In some cases, a single intermediary might act as an origin server, proxy, gateway, or tunnel, switching behavior based on the nature of each request.</p></div><div id="rfc.figure.u.2"><div><pre class="drawing">         &gt;             &gt;             &gt;             &gt;
    <b>UA</b> =========== <b>A</b> =========== <b>B</b> =========== <b>C</b> =========== <b>O</b>
               &lt;             &lt;             &lt;             &lt;
</pre></div></div><div id="rfc.section.3.7.p.2"><p>The figure above shows three intermediaries (A, B, and C) between the user agent and origin server. A request or response message that travels the whole chain will pass through four separate connections. Some HTTP communication options might apply only to the connection with the nearest, non-tunnel neighbor, only to the endpoints of the chain, or to all connections along the chain. Although the diagram is linear, each participant might be engaged in multiple, simultaneous communications. For example, B might be receiving requests from many clients other than A, and/or forwarding requests to servers other than C, at the same time that it is handling A's request. Likewise, later requests might be sent through a different path of connections, often based on dynamic configuration for load balancing.</p></div><div id="rfc.section.3.7.p.3"><p><span id="rfc.iref.u.1"></span><span id="rfc.iref.d.1"></span><span id="rfc.iref.i.1"></span><span id="rfc.iref.o.1"></span>The terms <dfn>upstream</dfn> and <dfn>downstream</dfn> are used to describe directional requirements in relation to the message flow: all messages flow from upstream to downstream. The terms <dfn>inbound</dfn> and <dfn>outbound</dfn> are used to describe directional requirements in relation to the request route: inbound means "toward the origin server", whereas outbound means "toward the user agent".</p></div><div id="rfc.section.3.7.p.4"><p><span id="rfc.iref.p.1"></span>A <dfn>proxy</dfn> is a message-forwarding agent that is chosen by the client, usually via local configuration rules, to receive requests for some type(s) of absolute URI and attempt to satisfy those requests via translation through the HTTP interface. Some translations are minimal, such as for proxy requests for "http" URIs, whereas other requests might require translation to and from entirely different application-level protocols. Proxies are often used to group an organization's HTTP requests through a common intermediary for the sake of security services, annotation services, or shared caching. Some proxies are designed to apply transformations to selected messages or content while they are being forwarded, as described in <a href="##message.transformations" title="Message Transformations">Section 7.7</a>.</p></div><div id="rfc.section.3.7.p.5"><p><span id="rfc.iref.g.1"></span><span id="rfc.iref.r.1"></span><span id="rfc.iref.a.1"></span>A <dfn>gateway</dfn> (a.k.a. <dfn>reverse proxy</dfn>) is an intermediary that acts as an origin server for the outbound connection but translates received requests and forwards them inbound to another server or servers. Gateways are often used to encapsulate legacy or untrusted information services, to improve server performance through <dfn>accelerator</dfn> caching, and to enable partitioning or load balancing of HTTP services across multiple machines.</p></div><div id="rfc.section.3.7.p.6"><p>All HTTP requirements applicable to an origin server also apply to the outbound communication of a gateway. A gateway communicates with inbound servers using any protocol that it desires, including private extensions to HTTP that are outside the scope of this specification. However, an HTTP-to-HTTP gateway that wishes to interoperate with third-party HTTP servers needs to conform to user agent requirements on the gateway's inbound connection.</p></div><div id="rfc.section.3.7.p.7"><p><span id="rfc.iref.t.1"></span>A <dfn>tunnel</dfn> acts as a blind relay between two connections without changing the messages. Once active, a tunnel is not considered a party to the HTTP communication, though the tunnel might have been initiated by an HTTP request. A tunnel ceases to exist when both ends of the relayed connection are closed. Tunnels are used to extend a virtual connection through an intermediary, such as when Transport Layer Security (TLS, <a href="##TLS13" id="rfc.xref.TLS13.1"><cite title="The Transport Layer Security (TLS) Protocol Version 1.3">[TLS13]</cite></a>) is used to establish confidential communication through a shared firewall proxy.</p></div><div id="rfc.section.3.7.p.8"><p>The above categories for intermediary only consider those acting as participants in the HTTP communication. There are also intermediaries that can act on lower layers of the network protocol stack, filtering or redirecting HTTP traffic without the knowledge or permission of message senders. Network intermediaries are indistinguishable (at a protocol level) from an on-path attacker, often introducing security flaws or interoperability problems due to mistakenly violating HTTP semantics.</p></div><div id="rfc.section.3.7.p.9"><p><span id="rfc.iref.i.2"></span><span id="rfc.iref.t.2"></span>For example, an <dfn>interception proxy</dfn> <a href="##RFC3040" id="rfc.xref.RFC3040.1"><cite title="Internet Web Replication and Caching Taxonomy">[RFC3040]</cite></a> (also commonly known as a <dfn>transparent proxy</dfn> <a href="##RFC1919" id="rfc.xref.RFC1919.1"><cite title="Classical versus Transparent IP Proxies">[RFC1919]</cite></a>) differs from an HTTP proxy because it is not chosen by the client. Instead, an interception proxy filters or redirects outgoing TCP port 80 packets (and occasionally other common port traffic). Interception proxies are commonly found on public network access points, as a means of enforcing account subscription prior to allowing use of non-local Internet services, and within corporate firewalls to enforce network usage policies.</p></div></section><section id="caches"><h3 id="rfc.section.3.8"><a href="##rfc.section.3.8">3.8.</a>&nbsp;<a href="##caches">Caches</a></h3><div id="rfc.section.3.8.p.1"><p>A <dfn>cache</dfn> is a local store of previous response messages and the subsystem that controls its message storage, retrieval, and deletion. A cache stores cacheable responses in order to reduce the response time and network bandwidth consumption on future, equivalent requests. Any client or server <em class="bcp14">MAY</em> employ a cache, though a cache cannot be used while acting as a tunnel.</p></div><div id="rfc.section.3.8.p.2"><p>The effect of a cache is that the request/response chain is shortened if one of the participants along the chain has a cached response applicable to that request. The following illustrates the resulting chain if B has a cached copy of an earlier response from O (via C) for a request that has not been cached by UA or A.</p></div><div id="rfc.figure.u.3"><div><pre class="drawing">            &gt;             &gt;
       <b>UA</b> =========== <b>A</b> =========== <b>B</b> - - - - - - <b>C</b> - - - - - - <b>O</b>
                  &lt;             &lt;
</pre></div></div><div id="rfc.section.3.8.p.3"><p><span id="rfc.iref.c.2"></span>A response is <dfn>cacheable</dfn> if a cache is allowed to store a copy of the response message for use in answering subsequent requests. Even when a response is cacheable, there might be additional constraints placed by the client or by the origin server on when that cached response can be used for a particular request. HTTP requirements for cache behavior and cacheable responses are defined in <a href="##CACHING" id="rfc.xref.CACHING.3"><cite title="HTTP Caching">[CACHING]</cite></a>.</p></div><div id="rfc.section.3.8.p.4"><p>There is a wide variety of architectures and configurations of caches deployed across the World Wide Web and inside large organizations. These include national hierarchies of proxy caches to save bandwidth and reduce latency, content delivery networks that use gateway caching to optimize regional and global distribution of popular sites, collaborative systems that broadcast or multicast cache entries, archives of pre-fetched cache entries for use in off-line or high-latency environments, and so on.</p></div></section><section id="example"><h3 id="rfc.section.3.9"><a href="##rfc.section.3.9">3.9.</a>&nbsp;<a href="##example">Example Message Exchange</a></h3><div id="rfc.section.3.9.p.1" class="avoidbreakafter"><p>The following example illustrates a typical HTTP/1.1 message exchange for a GET request (<a href="##GET" id="rfc.xref.GET.2" title="GET">Section 9.3.1</a>) on the URI "http://www.example.com/hello.txt":</p></div><div id="rfc.section.3.9.p.2" class="avoidbreakafter"><p>Client request:</p></div><div id="rfc.section.3.9.p.3"><pre class="text">GET /hello.txt HTTP/1.1
User-Agent: curl/7.64.1
Host: www.example.com
Accept-Language: en, mi

</pre></div><div id="rfc.section.3.9.p.4" class="avoidbreakafter"><p>Server response:</p></div><div id="rfc.section.3.9.p.5"><pre class="text">HTTP/1.1 200 OK
Date: Mon, 27 Jul 2009 12:28:53 GMT
Server: Apache
Last-Modified: Wed, 22 Jul 2009 19:15:56 GMT
ETag: "34aa387-d-1568eb00"
Accept-Ranges: bytes
Content-Length: 51
Vary: Accept-Encoding
Content-Type: text/plain

<span id="exbody">Hello World! My content includes a trailing CRLF.
</span></pre></div></section></section><section id="uri"><h2 id="rfc.section.4"><a href="##rfc.section.4">4.</a>&nbsp;<a href="##uri">Identifiers in HTTP</a></h2><div id="rfc.section.4.p.1"><p>Uniform Resource Identifiers (URIs) <a href="##URI" id="rfc.xref.URI.2"><cite title="Uniform Resource Identifier (URI): Generic Syntax">[URI]</cite></a> are used throughout HTTP as the means for identifying resources (<a href="##resources" title="Resources">Section 3.1</a>).</p></div><section id="uri.references"><h3 id="rfc.section.4.1"><a href="##rfc.section.4.1">4.1.</a>&nbsp;<a href="##uri.references">URI References</a></h3><div id="rfc.section.4.1.p.1"><p>URI references are used to target requests, indicate redirects, and define relationships.</p></div><div id="rfc.section.4.1.p.2"><p>The definitions of "URI-reference", "absolute-URI", "relative-part", "authority", "port", "host", "path-abempty", "segment", and "query" are adopted from the URI generic syntax. An "absolute-path" rule is defined for protocol elements that can contain a non-empty path component. (This rule differs slightly from the path-abempty rule of RFC 3986, which allows for an empty path, and path-absolute rule, which does not allow paths that begin with "//".) A "partial-URI" rule is defined for protocol elements that can contain a relative URI but not a fragment component.</p></div><div id="rfc.section.4.1.p.3"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.2"></span><span id="rfc.iref.g.3"></span><span id="rfc.iref.g.4"></span><span id="rfc.iref.g.5"></span><span id="rfc.iref.g.6"></span><span id="rfc.iref.g.7"></span><span id="rfc.iref.g.8"></span><span id="rfc.iref.g.9"></span><span id="rfc.iref.g.10"></span><span class="pln">  </span><a href="##uri.references" class="smpl"><span class="typ">URI-reference</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="nocode">&lt;URI-reference, see </span><a href="##URI" id="rfc.xref.URI.3"><cite title="Uniform Resource Identifier (URI): Generic Syntax"><span class="nocode">[URI]</span></cite></a><span class="nocode">, </span><a href="https://www.rfc-editor.org/rfc/rfc3986.html#section-4.1"><span class="nocode">Section 4.1</span></a><span class="nocode">&gt;</span><span class="pln">
  </span><a href="##uri.references" class="smpl"><span class="typ">absolute-URI</span></a><span class="pln">  </span><span class="pun">=</span><span class="pln"> </span><span class="nocode">&lt;absolute-URI, see </span><a href="##URI" id="rfc.xref.URI.4"><cite title="Uniform Resource Identifier (URI): Generic Syntax"><span class="nocode">[URI]</span></cite></a><span class="nocode">, </span><a href="https://www.rfc-editor.org/rfc/rfc3986.html#section-4.3"><span class="nocode">Section 4.3</span></a><span class="nocode">&gt;</span><span class="pln">
  </span><a href="##uri.references" class="smpl"><span class="typ">relative-part</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="nocode">&lt;relative-part, see </span><a href="##URI" id="rfc.xref.URI.5"><cite title="Uniform Resource Identifier (URI): Generic Syntax"><span class="nocode">[URI]</span></cite></a><span class="nocode">, </span><a href="https://www.rfc-editor.org/rfc/rfc3986.html#section-4.2"><span class="nocode">Section 4.2</span></a><span class="nocode">&gt;</span><span class="pln">
  </span><a href="##uri.references" class="smpl"><span class="typ">authority</span></a><span class="pln">     </span><span class="pun">=</span><span class="pln"> </span><span class="nocode">&lt;authority, see </span><a href="##URI" id="rfc.xref.URI.6"><cite title="Uniform Resource Identifier (URI): Generic Syntax"><span class="nocode">[URI]</span></cite></a><span class="nocode">, </span><a href="https://www.rfc-editor.org/rfc/rfc3986.html#section-3.2"><span class="nocode">Section 3.2</span></a><span class="nocode">&gt;</span><span class="pln">
  </span><a href="##uri.references" class="smpl"><span class="typ">uri-host</span></a><span class="pln">      </span><span class="pun">=</span><span class="pln"> </span><span class="nocode">&lt;host, see </span><a href="##URI" id="rfc.xref.URI.7"><cite title="Uniform Resource Identifier (URI): Generic Syntax"><span class="nocode">[URI]</span></cite></a><span class="nocode">, </span><a href="https://www.rfc-editor.org/rfc/rfc3986.html#section-3.2.2"><span class="nocode">Section 3.2.2</span></a><span class="nocode">&gt;</span><span class="pln">
  </span><a href="##uri.references" class="smpl"><span class="typ">port</span></a><span class="pln">          </span><span class="pun">=</span><span class="pln"> </span><span class="nocode">&lt;port, see </span><a href="##URI" id="rfc.xref.URI.8"><cite title="Uniform Resource Identifier (URI): Generic Syntax"><span class="nocode">[URI]</span></cite></a><span class="nocode">, </span><a href="https://www.rfc-editor.org/rfc/rfc3986.html#section-3.2.3"><span class="nocode">Section 3.2.3</span></a><span class="nocode">&gt;</span><span class="pln">
  </span><a href="##uri.references" class="smpl"><span class="typ">path-abempty</span></a><span class="pln">  </span><span class="pun">=</span><span class="pln"> </span><span class="nocode">&lt;path-abempty, see </span><a href="##URI" id="rfc.xref.URI.9"><cite title="Uniform Resource Identifier (URI): Generic Syntax"><span class="nocode">[URI]</span></cite></a><span class="nocode">, </span><a href="https://www.rfc-editor.org/rfc/rfc3986.html#section-3.3"><span class="nocode">Section 3.3</span></a><span class="nocode">&gt;</span><span class="pln">
  </span><a href="##uri.references" class="smpl"><span class="typ">segment</span></a><span class="pln">       </span><span class="pun">=</span><span class="pln"> </span><span class="nocode">&lt;segment, see </span><a href="##URI" id="rfc.xref.URI.10"><cite title="Uniform Resource Identifier (URI): Generic Syntax"><span class="nocode">[URI]</span></cite></a><span class="nocode">, </span><a href="https://www.rfc-editor.org/rfc/rfc3986.html#section-3.3"><span class="nocode">Section 3.3</span></a><span class="nocode">&gt;</span><span class="pln">
  </span><a href="##uri.references" class="smpl"><span class="typ">query</span></a><span class="pln">         </span><span class="pun">=</span><span class="pln"> </span><span class="nocode">&lt;query, see </span><a href="##URI" id="rfc.xref.URI.11"><cite title="Uniform Resource Identifier (URI): Generic Syntax"><span class="nocode">[URI]</span></cite></a><span class="nocode">, </span><a href="https://www.rfc-editor.org/rfc/rfc3986.html#section-3.4"><span class="nocode">Section 3.4</span></a><span class="nocode">&gt;</span><span class="pln">

  </span><a href="##uri.references" class="smpl"><span class="typ">absolute-path</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> 1</span><span class="pun">*(</span><span class="pln"> </span><span class="str">"/"</span><span class="pln"> </span><span class="typ">segment</span><span class="pln"> </span><span class="pun">)</span><span class="pln">
  </span><a href="##uri.references" class="smpl"><span class="typ">partial-URI</span></a><span class="pln">   </span><span class="pun">=</span><span class="pln"> </span><span class="typ">relative-part</span><span class="pln"> </span><span class="pun">[</span><span class="pln"> </span><span class="str">"?"</span><span class="pln"> </span><span class="typ">query</span><span class="pln"> </span><span class="pun">]</span></pre></div><div id="rfc.section.4.1.p.4"><p>Each protocol element in HTTP that allows a URI reference will indicate in its ABNF production whether the element allows any form of reference (URI-reference), only a URI in absolute form (absolute-URI), only the path and optional query components (partial-URI), or some combination of the above. Unless otherwise indicated, URI references are parsed relative to the target URI (<a href="##target.resource" title="Determining the Target Resource">Section 7.1</a>).</p></div><div id="rfc.section.4.1.p.5"><p>It is <em class="bcp14">RECOMMENDED</em> that all senders and recipients support, at a minimum, URIs with lengths of 8000 octets in protocol elements. Note that this implies some structures and on-wire representations (for example, the request line in HTTP/1.1) will necessarily be larger in some cases.</p></div></section><section id="uri.schemes"><h3 id="rfc.section.4.2"><a href="##rfc.section.4.2">4.2.</a>&nbsp;<a href="##uri.schemes">HTTP-Related URI Schemes</a></h3><div id="rfc.section.4.2.p.1" class="avoidbreakafter"><p>IANA maintains the registry of URI Schemes <a href="##BCP35" id="rfc.xref.BCP35.1">[BCP35]</a> at <a href="https://www.iana.org/assignments/uri-schemes/">https://www.iana.org/assignments/uri-schemes/</a>. Although requests might target any URI scheme, the following schemes are inherent to HTTP servers:</p></div><div class="table table-condensed table-striped" id="uri.scheme.table"><table class="v3 tleft"><caption>Table 2</caption><thead><tr><th class="text-left">URI Scheme</th><th class="text-left">Description</th><th class="text-left">Section</th></tr></thead><tbody><tr><td class="text-left">http</td><td class="text-left">Hypertext Transfer Protocol</td><td class="text-left"><a href="##http.uri" title="http URI Scheme">4.2.1</a></td></tr><tr><td class="text-left">https</td><td class="text-left">Hypertext Transfer Protocol Secure</td><td class="text-left"><a href="##https.uri" title="https URI Scheme">4.2.2</a></td></tr></tbody></table></div><div id="rfc.section.4.2.p.2"><p>Note that the presence of an "http" or "https" URI does not imply that there is always an HTTP server at the identified origin listening for connections. Anyone can mint a URI, whether or not a server exists and whether or not that server currently maps that identifier to a resource. The delegated nature of registered names and IP addresses creates a federated namespace whether or not an HTTP server is present.</p></div><section id="http.uri"><h4 id="rfc.section.4.2.1"><a href="##rfc.section.4.2.1">4.2.1.</a>&nbsp;<a href="##http.uri">http URI Scheme</a></h4><div id="rfc.section.4.2.1.p.1"><p>The "http" URI scheme is hereby defined for minting identifiers within the hierarchical namespace governed by a potential HTTP origin server listening for TCP (<a href="##TCP" id="rfc.xref.TCP.1"><cite title="Transmission Control Protocol">[TCP]</cite></a>) connections on a given port.</p></div><div id="rfc.section.4.2.1.p.2"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.11"></span><span class="pln">  </span><a href="##http.uri" class="smpl"><span class="typ">http-URI</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="str">"http"</span><span class="pln"> </span><span class="str">"://"</span><span class="pln"> </span><a href="##uri.references" class="smpl"><span class="typ">authority</span></a><span class="pln"> </span><a href="##uri.references" class="smpl"><span class="typ">path-abempty</span></a><span class="pln"> </span><span class="pun">[</span><span class="pln"> </span><span class="str">"?"</span><span class="pln"> </span><a href="##uri.references" class="smpl"><span class="typ">query</span></a><span class="pln"> </span><span class="pun">]</span></pre></div><div id="rfc.section.4.2.1.p.3"><p>The origin server for an "http" URI is identified by the <a href="##uri.references" class="smpl">authority</a> component, which includes a host identifier (<a href="##URI" id="rfc.xref.URI.12"><cite title="Uniform Resource Identifier (URI): Generic Syntax">[URI]</cite></a>, <a href="https://www.rfc-editor.org/rfc/rfc3986.html#section-3.2.2">Section 3.2.2</a>) and optional port number (<a href="##URI" id="rfc.xref.URI.13"><cite title="Uniform Resource Identifier (URI): Generic Syntax">[URI]</cite></a>, <a href="https://www.rfc-editor.org/rfc/rfc3986.html#section-3.2.3">Section 3.2.3</a>). If the port subcomponent is empty or not given, TCP port 80 (the reserved port for WWW services) is the default. The origin determines who has the right to respond authoritatively to requests that target the identified resource, as defined in <a href="##http.origin" title="http Origins">Section 4.3.2</a>.</p></div><div id="rfc.section.4.2.1.p.4"><p>A sender <em class="bcp14">MUST NOT</em> generate an "http" URI with an empty host identifier. A recipient that processes such a URI reference <em class="bcp14">MUST</em> reject it as invalid.</p></div><div id="rfc.section.4.2.1.p.5"><p>The hierarchical path component and optional query component identify the target resource within that origin server's namespace.</p></div></section><section id="https.uri"><h4 id="rfc.section.4.2.2"><a href="##rfc.section.4.2.2">4.2.2.</a>&nbsp;<a href="##https.uri">https URI Scheme</a></h4><div id="rfc.section.4.2.2.p.1"><p>The "https" URI scheme is hereby defined for minting identifiers within the hierarchical namespace governed by a potential origin server listening for TCP connections on a given port and capable of establishing a TLS (<a href="##TLS13" id="rfc.xref.TLS13.2"><cite title="The Transport Layer Security (TLS) Protocol Version 1.3">[TLS13]</cite></a>) connection that has been secured for HTTP communication. In this context, <dfn>secured</dfn> specifically means that the server has been authenticated as acting on behalf of the identified authority and all HTTP communication with that server has confidentiality and integrity protection that is acceptable to both client and server.</p></div><div id="rfc.section.4.2.2.p.2"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.12"></span><span class="pln">  </span><a href="##https.uri" class="smpl"><span class="typ">https-URI</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="str">"https"</span><span class="pln"> </span><span class="str">"://"</span><span class="pln"> </span><a href="##uri.references" class="smpl"><span class="typ">authority</span></a><span class="pln"> </span><a href="##uri.references" class="smpl"><span class="typ">path-abempty</span></a><span class="pln"> </span><span class="pun">[</span><span class="pln"> </span><span class="str">"?"</span><span class="pln"> </span><a href="##uri.references" class="smpl"><span class="typ">query</span></a><span class="pln"> </span><span class="pun">]</span></pre></div><div id="rfc.section.4.2.2.p.3"><p>The origin server for an "https" URI is identified by the <a href="##uri.references" class="smpl">authority</a> component, which includes a host identifier (<a href="##URI" id="rfc.xref.URI.14"><cite title="Uniform Resource Identifier (URI): Generic Syntax">[URI]</cite></a>, <a href="https://www.rfc-editor.org/rfc/rfc3986.html#section-3.2.2">Section 3.2.2</a>) and optional port number (<a href="##URI" id="rfc.xref.URI.15"><cite title="Uniform Resource Identifier (URI): Generic Syntax">[URI]</cite></a>, <a href="https://www.rfc-editor.org/rfc/rfc3986.html#section-3.2.3">Section 3.2.3</a>). If the port subcomponent is empty or not given, TCP port 443 (the reserved port for HTTP over TLS) is the default. The origin determines who has the right to respond authoritatively to requests that target the identified resource, as defined in <a href="##https.origin" title="https Origins">Section 4.3.3</a>.</p></div><div id="rfc.section.4.2.2.p.4"><p>A sender <em class="bcp14">MUST NOT</em> generate an "https" URI with an empty host identifier. A recipient that processes such a URI reference <em class="bcp14">MUST</em> reject it as invalid.</p></div><div id="rfc.section.4.2.2.p.5"><p>The hierarchical path component and optional query component identify the target resource within that origin server's namespace.</p></div><div id="rfc.section.4.2.2.p.6"><p>A client <em class="bcp14">MUST</em> ensure that its HTTP requests for an "https" resource are secured, prior to being communicated, and that it only accepts secured responses to those requests. Note that the definition of what cryptographic mechanisms are acceptable to client and server are usually negotiated and can change over time.</p></div><div id="rfc.section.4.2.2.p.7"><p>Resources made available via the "https" scheme have no shared identity with the "http" scheme. They are distinct origins with separate namespaces. However, extensions to HTTP that are defined as applying to all origins with the same host, such as the Cookie protocol <a href="##COOKIE" id="rfc.xref.COOKIE.1"><cite title="HTTP State Management Mechanism">[COOKIE]</cite></a>, allow information set by one service to impact communication with other services within a matching group of host domains. Such extensions ought to be designed with great care to prevent information obtained from a secured connection being inadvertently exchanged within an unsecured context.</p></div></section><section id="uri.comparison"><h4 id="rfc.section.4.2.3"><a href="##rfc.section.4.2.3">4.2.3.</a>&nbsp;<a href="##uri.comparison">http(s) Normalization and Comparison</a></h4><div id="rfc.section.4.2.3.p.1"><p>URIs with an "http" or "https" scheme are normalized and compared according to the methods defined in <a href="https://www.rfc-editor.org/rfc/rfc3986.html#section-6">Section 6</a> of <a href="##URI" id="rfc.xref.URI.16"><cite title="Uniform Resource Identifier (URI): Generic Syntax">[URI]</cite></a>, using the defaults described above for each scheme.</p></div><div id="rfc.section.4.2.3.p.2"><p>HTTP does not require the use of a specific method for determining equivalence. For example, a cache key might be compared as a simple string, after syntax-based normalization, or after scheme-based normalization.</p></div><div id="rfc.section.4.2.3.p.3" class="avoidbreakafter"><p>Scheme-based normalization (<a href="https://www.rfc-editor.org/rfc/rfc3986.html#section-6.2.3">Section 6.2.3</a> of <a href="##URI" id="rfc.xref.URI.17"><cite title="Uniform Resource Identifier (URI): Generic Syntax">[URI]</cite></a>) of "http" and "https" URIs involves the following additional rules:</p></div><div id="rfc.section.4.2.3.p.4"><ul><li>If the port is equal to the default port for a scheme, the normal form is to omit the port subcomponent.</li><li>When not being used as the target of an OPTIONS request, an empty path component is equivalent to an absolute path of "/", so the normal form is to provide a path of "/" instead.</li><li>The scheme and host are case-insensitive and normally provided in lowercase; all other components are compared in a case-sensitive manner.</li><li>Characters other than those in the "reserved" set are equivalent to their percent-encoded octets: the normal form is to not encode them (see Sections <a href="https://www.rfc-editor.org/rfc/rfc3986.html#section-2.1" id="rfc.xref.URI.18">2.1</a> and <a href="https://www.rfc-editor.org/rfc/rfc3986.html#section-2.2" id="rfc.xref.URI.19">2.2</a> of <a href="##URI" id="rfc.xref.URI.20"><cite title="Uniform Resource Identifier (URI): Generic Syntax">[URI]</cite></a>).</li></ul></div><div id="rfc.section.4.2.3.p.5" class="avoidbreakafter"><p>For example, the following three URIs are equivalent:</p></div><div id="rfc.section.4.2.3.p.6"><pre class="text">   http://example.com:80/~smith/home.html
   http://EXAMPLE.com/%7Esmith/home.html
   http://EXAMPLE.com:/%7esmith/home.html
</pre></div><div id="rfc.section.4.2.3.p.7"><p>Two HTTP URIs that are equivalent after normalization (using any method) can be assumed to identify the same resource, and any HTTP component <em class="bcp14">MAY</em> perform normalization. As a result, distinct resources <em class="bcp14">SHOULD NOT</em> be identified by HTTP URIs that are equivalent after normalization (using any method defined in <a href="https://www.rfc-editor.org/rfc/rfc3986.html#section-6.2">Section 6.2</a> of <a href="##URI" id="rfc.xref.URI.21"><cite title="Uniform Resource Identifier (URI): Generic Syntax">[URI]</cite></a>).</p></div></section><section id="http.userinfo"><h4 id="rfc.section.4.2.4"><a href="##rfc.section.4.2.4">4.2.4.</a>&nbsp;<a href="##http.userinfo">Deprecation of userinfo in http(s) URIs</a></h4><div id="rfc.section.4.2.4.p.1"><p>The URI generic syntax for authority also includes a userinfo subcomponent (<a href="##URI" id="rfc.xref.URI.22"><cite title="Uniform Resource Identifier (URI): Generic Syntax">[URI]</cite></a>, <a href="https://www.rfc-editor.org/rfc/rfc3986.html#section-3.2.1">Section 3.2.1</a>) for including user authentication information in the URI. In that subcomponent, the use of the format "user:password" is deprecated.</p></div><div id="rfc.section.4.2.4.p.2"><p>Some implementations make use of the userinfo component for internal configuration of authentication information, such as within command invocation options, configuration files, or bookmark lists, even though such usage might expose a user identifier or password.</p></div><div id="rfc.section.4.2.4.p.3"><p>A sender <em class="bcp14">MUST NOT</em> generate the userinfo subcomponent (and its "@" delimiter) when an "http" or "https" URI reference is generated within a message as a target URI or field value.</p></div><div id="rfc.section.4.2.4.p.4"><p>Before making use of an "http" or "https" URI reference received from an untrusted source, a recipient <em class="bcp14">SHOULD</em> parse for userinfo and treat its presence as an error; it is likely being used to obscure the authority for the sake of phishing attacks.</p></div></section><section id="uri.fragment.identifiers"><h4 id="rfc.section.4.2.5"><a href="##rfc.section.4.2.5">4.2.5.</a>&nbsp;<a href="##uri.fragment.identifiers">http(s) References with Fragment Identifiers</a></h4><div id="rfc.section.4.2.5.p.1"><p>Fragment identifiers allow for indirect identification of a secondary resource, independent of the URI scheme, as defined in <a href="https://www.rfc-editor.org/rfc/rfc3986.html#section-3.5">Section 3.5</a> of <a href="##URI" id="rfc.xref.URI.23"><cite title="Uniform Resource Identifier (URI): Generic Syntax">[URI]</cite></a>. Some protocol elements that refer to a URI allow inclusion of a fragment, while others do not. They are distinguished by use of the ABNF rule for elements where fragment is allowed; otherwise, a specific rule that excludes fragments is used.</p></div><div id="rfc.section.4.2.5.p.2"><aside><div id="rfc.section.4.2.5.p.2.1"><p><b>Note:</b> The fragment identifier component is not part of the scheme definition for a URI scheme (see <a href="https://www.rfc-editor.org/rfc/rfc3986.html#section-4.3">Section 4.3</a> of <a href="##URI" id="rfc.xref.URI.24"><cite title="Uniform Resource Identifier (URI): Generic Syntax">[URI]</cite></a>), thus does not appear in the ABNF definitions for the "http" and "https" URI schemes above.</p></div></aside></div></section></section><section id="authoritative.access"><h3 id="rfc.section.4.3"><a href="##rfc.section.4.3">4.3.</a>&nbsp;<a href="##authoritative.access">Authoritative Access</a></h3><div id="rfc.section.4.3.p.1"><p>Authoritative access refers to dereferencing a given identifier, for the sake of access to the identified resource, in a way that the client believes is authoritative (controlled by the resource owner). The process for determining whether access is granted is defined by the URI scheme and often uses data within the URI components, such as the authority component when the generic syntax is used. However, authoritative access is not limited to the identified mechanism.</p></div><div id="rfc.section.4.3.p.2"><p><a href="##origin" title="URI Origin">Section 4.3.1</a> defines the concept of an origin as an aid to such uses, and the subsequent subsections explain how to establish that a peer has the authority to represent an origin.</p></div><div id="rfc.section.4.3.p.3"><p>See <a href="##establishing.authority" title="Establishing Authority">Section 17.1</a> for security considerations related to establishing authority.</p></div><section id="origin"><h4 id="rfc.section.4.3.1"><a href="##rfc.section.4.3.1">4.3.1.</a>&nbsp;<a href="##origin">URI Origin</a></h4><div id="rfc.section.4.3.1.p.1"><p>The <dfn>origin</dfn> for a given URI is the triple of scheme, host, and port after normalizing the scheme and host to lowercase and normalizing the port to remove any leading zeros. If port is elided from the URI, the default port for that scheme is used. For example, the URI</p></div><div id="rfc.section.4.3.1.p.2"><pre class="text">   https://Example.Com/happy.js
</pre></div><div id="rfc.section.4.3.1.p.3"><p>would have the origin</p></div><div id="rfc.section.4.3.1.p.4"><pre class="text">   { "https", "example.com", "443" }
</pre></div><div id="rfc.section.4.3.1.p.5" class="avoidbreakafter"><p>which can also be described as the normalized URI prefix with port always present:</p></div><div id="rfc.section.4.3.1.p.6"><pre class="text">   https://example.com:443
</pre></div><div id="rfc.section.4.3.1.p.7"><p>Each origin defines its own namespace and controls how identifiers within that namespace are mapped to resources. In turn, how the origin responds to valid requests, consistently over time, determines the semantics that users will associate with a URI, and the usefulness of those semantics is what ultimately transforms these mechanisms into a resource for users to reference and access in the future.</p></div><div id="rfc.section.4.3.1.p.8"><p>Two origins are distinct if they differ in scheme, host, or port. Even when it can be verified that the same entity controls two distinct origins, the two namespaces under those origins are distinct unless explicitly aliased by a server authoritative for that origin.</p></div><div id="rfc.section.4.3.1.p.9"><p>Origin is also used within HTML and related Web protocols, beyond the scope of this document, as described in <a href="##RFC6454" id="rfc.xref.RFC6454.1"><cite title="The Web Origin Concept">[RFC6454]</cite></a>.</p></div></section><section id="http.origin"><h4 id="rfc.section.4.3.2"><a href="##rfc.section.4.3.2">4.3.2.</a>&nbsp;<a href="##http.origin">http Origins</a></h4><div id="rfc.section.4.3.2.p.1"><p>Although HTTP is independent of the transport protocol, the "http" scheme (<a href="##http.uri" title="http URI Scheme">Section 4.2.1</a>) is specific to associating authority with whomever controls the origin server listening for TCP connections on the indicated port of whatever host is identified within the authority component. This is a very weak sense of authority because it depends on both client-specific name resolution mechanisms and communication that might not be secured from an on-path attacker. Nevertheless, it is a sufficient minimum for binding "http" identifiers to an origin server for consistent resolution within a trusted environment.</p></div><div id="rfc.section.4.3.2.p.2"><p>If the host identifier is provided as an IP address, the origin server is the listener (if any) on the indicated TCP port at that IP address. If host is a registered name, the registered name is an indirect identifier for use with a name resolution service, such as DNS, to find an address for an appropriate origin server.</p></div><div id="rfc.section.4.3.2.p.3"><p>When an "http" URI is used within a context that calls for access to the indicated resource, a client <em class="bcp14">MAY</em> attempt access by resolving the host identifier to an IP address, establishing a TCP connection to that address on the indicated port, and sending over that connection an HTTP request message containing a request target that matches the client's target URI (<a href="##target.resource" title="Determining the Target Resource">Section 7.1</a>).</p></div><div id="rfc.section.4.3.2.p.4"><p>If the server responds to such a request with a non-interim HTTP response message, as described in <a href="##status.codes" title="Status Codes">Section 15</a>, then that response is considered an authoritative answer to the client's request.</p></div><div id="rfc.section.4.3.2.p.5"><p>Note, however, that the above is not the only means for obtaining an authoritative response, nor does it imply that an authoritative response is always necessary (see <a href="##CACHING" id="rfc.xref.CACHING.4"><cite title="HTTP Caching">[CACHING]</cite></a>). For example, the Alt-Svc header field <a href="##ALTSVC" id="rfc.xref.ALTSVC.1"><cite title="HTTP Alternative Services">[ALTSVC]</cite></a> allows an origin server to identify other services that are also authoritative for that origin. Access to "http" identified resources might also be provided by protocols outside the scope of this document.</p></div></section><section id="https.origin"><h4 id="rfc.section.4.3.3"><a href="##rfc.section.4.3.3">4.3.3.</a>&nbsp;<a href="##https.origin">https Origins</a></h4><div id="rfc.section.4.3.3.p.1"><p>The "https" scheme (<a href="##https.uri" title="https URI Scheme">Section 4.2.2</a>) associates authority based on the ability of a server to use the private key corresponding to a certificate that the client considers to be trustworthy for the identified origin server. The client usually relies upon a chain of trust, conveyed from some prearranged or configured trust anchor, to deem a certificate trustworthy (<a href="##https.verify" title="https Certificate Verification">Section 4.3.4</a>).</p></div><div id="rfc.section.4.3.3.p.2"><p>In HTTP/1.1 and earlier, a client will only attribute authority to a server when they are communicating over a successfully established and secured connection specifically to that URI origin's host. The connection establishment and certificate verification are used as proof of authority.</p></div><div id="rfc.section.4.3.3.p.3"><p>In HTTP/2 and HTTP/3, a client will attribute authority to a server when they are communicating over a successfully established and secured connection if the URI origin's host matches any of the hosts present in the server's certificate and the client believes that it could open a connection to that host for that URI. In practice, a client will make a DNS query to check that the origin's host contains the same server IP address as the established connection. This restriction can be removed by the origin server sending an equivalent ORIGIN frame <a href="##RFC8336" id="rfc.xref.RFC8336.1"><cite title="The ORIGIN HTTP/2 Frame">[RFC8336]</cite></a>.</p></div><div id="rfc.section.4.3.3.p.4"><p>The request target's host and port value are passed within each HTTP request, identifying the origin and distinguishing it from other namespaces that might be controlled by the same server (<a href="##field.host" id="rfc.xref.field.host.1" title="Host and :authority">Section 7.2</a>). It is the origin's responsibility to ensure that any services provided with control over its certificate's private key are equally responsible for managing the corresponding "https" namespaces or at least prepared to reject requests that appear to have been misdirected (<a href="##routing.reject" title="Rejecting Misdirected Requests">Section 7.4</a>).</p></div><div id="rfc.section.4.3.3.p.5"><p>An origin server might be unwilling to process requests for certain target URIs even when they have the authority to do so. For example, when a host operates distinct services on different ports (e.g., 443 and 8000), checking the target URI at the origin server is necessary (even after the connection has been secured) because a network attacker might cause connections for one port to be received at some other port. Failing to check the target URI might allow such an attacker to replace a response to one target URI (e.g., "https://example.com/foo") with a seemingly authoritative response from the other port (e.g., "https://example.com:8000/foo").</p></div><div id="rfc.section.4.3.3.p.6"><p>Note that the "https" scheme does not rely on TCP and the connected port number for associating authority, since both are outside the secured communication and thus cannot be trusted as definitive. Hence, the HTTP communication might take place over any channel that has been secured, as defined in <a href="##https.uri" title="https URI Scheme">Section 4.2.2</a>, including protocols that don't use TCP.</p></div><div id="rfc.section.4.3.3.p.7"><p>When an "https" URI is used within a context that calls for access to the indicated resource, a client <em class="bcp14">MAY</em> attempt access by resolving the host identifier to an IP address, establishing a TCP connection to that address on the indicated port, securing the connection end-to-end by successfully initiating TLS over TCP with confidentiality and integrity protection, and sending over that connection an HTTP request message containing a request target that matches the client's target URI (<a href="##target.resource" title="Determining the Target Resource">Section 7.1</a>).</p></div><div id="rfc.section.4.3.3.p.8"><p>If the server responds to such a request with a non-interim HTTP response message, as described in <a href="##status.codes" title="Status Codes">Section 15</a>, then that response is considered an authoritative answer to the client's request.</p></div><div id="rfc.section.4.3.3.p.9"><p>Note, however, that the above is not the only means for obtaining an authoritative response, nor does it imply that an authoritative response is always necessary (see <a href="##CACHING" id="rfc.xref.CACHING.5"><cite title="HTTP Caching">[CACHING]</cite></a>).</p></div></section><section id="https.verify"><h4 id="rfc.section.4.3.4"><a href="##rfc.section.4.3.4">4.3.4.</a>&nbsp;<a href="##https.verify">https Certificate Verification</a></h4><div id="rfc.section.4.3.4.p.1"><p>To establish a <a href="##https.uri" class="smpl">secured</a> connection to dereference a URI, a client <em class="bcp14">MUST</em> verify that the service's identity is an acceptable match for the URI's origin server. Certificate verification is used to prevent server impersonation by an on-path attacker or by an attacker that controls name resolution. This process requires that a client be configured with a set of trust anchors.</p></div><div id="rfc.section.4.3.4.p.2"><p>In general, a client <em class="bcp14">MUST</em> verify the service identity using the verification process defined in <a href="https://www.rfc-editor.org/rfc/rfc6125.html#section-6">Section 6</a> of <a href="##RFC6125" id="rfc.xref.RFC6125.1"><cite title="Representation and Verification of Domain-Based Application Service Identity within Internet Public Key Infrastructure Using X.509 (PKIX) Certificates in the Context of Transport Layer Security (TLS)">[RFC6125]</cite></a>. The client <em class="bcp14">MUST</em> construct a reference identity from the service's host: if the host is a literal IP address (<a href="##https.ip-id" title="IP-ID Reference Identity">Section 4.3.5</a>), the reference identity is an IP-ID, otherwise the host is a name and the reference identity is a DNS-ID.</p></div><div id="rfc.section.4.3.4.p.3"><p>A reference identity of type CN-ID <em class="bcp14">MUST NOT</em> be used by clients. As noted in <a href="https://www.rfc-editor.org/rfc/rfc6125.html#section-6.2.1">Section 6.2.1</a> of <a href="##RFC6125" id="rfc.xref.RFC6125.2"><cite title="Representation and Verification of Domain-Based Application Service Identity within Internet Public Key Infrastructure Using X.509 (PKIX) Certificates in the Context of Transport Layer Security (TLS)">[RFC6125]</cite></a>, a reference identity of type CN-ID might be used by older clients.</p></div><div id="rfc.section.4.3.4.p.4"><p>A client might be specially configured to accept an alternative form of server identity verification. For example, a client might be connecting to a server whose address and hostname are dynamic, with an expectation that the service will present a specific certificate (or a certificate matching some externally defined reference identity) rather than one matching the target URI's origin.</p></div><div id="rfc.section.4.3.4.p.5"><p>In special cases, it might be appropriate for a client to simply ignore the server's identity, but it must be understood that this leaves a connection open to active attack.</p></div><div id="rfc.section.4.3.4.p.6"><p>If the certificate is not valid for the target URI's origin, a user agent <em class="bcp14">MUST</em> either obtain confirmation from the user before proceeding (see <a href="##user.agent" title="User Agents">Section 3.5</a>) or terminate the connection with a bad certificate error. Automated clients <em class="bcp14">MUST</em> log the error to an appropriate audit log (if available) and <em class="bcp14">SHOULD</em> terminate the connection (with a bad certificate error). Automated clients <em class="bcp14">MAY</em> provide a configuration setting that disables this check, but <em class="bcp14">MUST</em> provide a setting which enables it.</p></div></section><section id="https.ip-id"><h4 id="rfc.section.4.3.5"><a href="##rfc.section.4.3.5">4.3.5.</a>&nbsp;<a href="##https.ip-id">IP-ID Reference Identity</a></h4><div id="rfc.section.4.3.5.p.1"><p>A server that is identified using an IP address literal in the "host" field of an "https" URI has a reference identity of type IP-ID. An IP version 4 address uses the "IPv4address" ABNF rule, and an IP version 6 address uses the "IP-literal" production with the "IPv6address" option; see <a href="https://www.rfc-editor.org/rfc/rfc3986.html#section-3.2.2">Section 3.2.2</a> of <a href="##URI" id="rfc.xref.URI.25"><cite title="Uniform Resource Identifier (URI): Generic Syntax">[URI]</cite></a>. A reference identity of IP-ID contains the decoded bytes of the IP address.</p></div><div id="rfc.section.4.3.5.p.2"><p>An IP version 4 address is 4 octets, and an IP version 6 address is 16 octets. Use of IP-ID is not defined for any other IP version. The iPAddress choice in the certificate subjectAltName extension does not explicitly include the IP version and so relies on the length of the address to distinguish versions; see <a href="https://www.rfc-editor.org/rfc/rfc5280.html#section-4.2.1.6">Section 4.2.1.6</a> of <a href="##RFC5280" id="rfc.xref.RFC5280.1"><cite title="Internet X.509 Public Key Infrastructure Certificate and Certificate Revocation List (CRL) Profile">[RFC5280]</cite></a>.</p></div><div id="rfc.section.4.3.5.p.3"><p>A reference identity of type IP-ID matches if the address is identical to an iPAddress value of the subjectAltName extension of the certificate.</p></div></section></section></section><section id="fields"><h2 id="rfc.section.5"><a href="##rfc.section.5">5.</a>&nbsp;<a href="##fields">Fields</a></h2><div id="rfc.section.5.p.1"><p>HTTP uses <dfn>fields</dfn> to provide data in the form of extensible name/value pairs with a registered key namespace. Fields are sent and received within the header and trailer sections of messages (<a href="##message.abstraction" title="Message Abstraction">Section 6</a>).</p></div><section id="fields.names"><h3 id="rfc.section.5.1"><a href="##rfc.section.5.1">5.1.</a>&nbsp;<a href="##fields.names">Field Names</a></h3><div id="rfc.section.5.1.p.1"><p>A field name labels the corresponding field value as having the semantics defined by that name. For example, the <a href="##field.date" class="smpl">Date</a> header field is defined in <a href="##field.date" id="rfc.xref.field.date.1" title="Date">Section 6.6.1</a> as containing the origination timestamp for the message in which it appears.</p></div><div id="rfc.section.5.1.p.2"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.13"></span><span class="pln">  </span><a href="##fields.names" class="smpl"><span class="typ">field-name</span></a><span class="pln">     </span><span class="pun">=</span><span class="pln"> </span><a href="##rule.token.separators" class="smpl"><span class="typ">token</span></a>
</pre></div><div id="rfc.section.5.1.p.3"><p>Field names are case-insensitive and ought to be registered within the "Hypertext Transfer Protocol (HTTP) Field Name Registry"; see <a href="##fields.registry" title="Field Name Registry">Section 16.3.1</a>.</p></div><div id="rfc.section.5.1.p.4"><p>The interpretation of a field does not change between minor versions of the same major HTTP version, though the default behavior of a recipient in the absence of such a field can change. Unless specified otherwise, fields are defined for all versions of HTTP. In particular, the <a href="##field.host" class="smpl">Host</a> and <a href="##field.connection" class="smpl">Connection</a> fields ought to be recognized by all HTTP implementations whether or not they advertise conformance with HTTP/1.1.</p></div><div id="rfc.section.5.1.p.5"><p>New fields can be introduced without changing the protocol version if their defined semantics allow them to be safely ignored by recipients that do not recognize them; see <a href="##fields.extensibility" title="Field Extensibility">Section 16.3</a>.</p></div><div id="rfc.section.5.1.p.6"><p>A proxy <em class="bcp14">MUST</em> forward unrecognized header fields unless the field name is listed in the <a href="##field.connection" class="smpl">Connection</a> header field (<a href="##field.connection" id="rfc.xref.field.connection.1" title="Connection">Section 7.6.1</a>) or the proxy is specifically configured to block, or otherwise transform, such fields. Other recipients <em class="bcp14">SHOULD</em> ignore unrecognized header and trailer fields. Adhering to these requirements allows HTTP's functionality to be extended without updating or removing deployed intermediaries.</p></div></section><section id="field.lines"><h3 id="rfc.section.5.2"><a href="##rfc.section.5.2">5.2.</a>&nbsp;<a href="##field.lines">Field Lines and Combined Field Value</a></h3><div id="rfc.section.5.2.p.1"><p><span id="rfc.iref.f.1"></span><span id="rfc.iref.f.2"></span><span id="rfc.iref.f.3"></span>Field sections are composed of any number of <dfn>field lines</dfn>, each with a <dfn>field name</dfn> (see <a href="##fields.names" title="Field Names">Section 5.1</a>) identifying the field, and a <dfn>field line value</dfn> that conveys data for that instance of the field.</p></div><div id="rfc.section.5.2.p.2"><p><span id="rfc.iref.f.4"></span>When a field name is only present once in a section, the combined <dfn>field value</dfn> for that field consists of the corresponding field line value. When a field name is repeated within a section, its combined field value consists of the list of corresponding field line values within that section, concatenated in order, with each field line value separated by a comma.</p></div><div id="rfc.section.5.2.p.3" class="avoidbreakafter"><p>For example, this section:</p></div><div id="rfc.section.5.2.p.4"><pre class="text">Example-Field: Foo, Bar
Example-Field: Baz
</pre></div><div id="rfc.section.5.2.p.5"><p>contains two field lines, both with the field name "Example-Field". The first field line has a field line value of "Foo, Bar", while the second field line value is "Baz". The field value for "Example-Field" is the list "Foo, Bar, Baz".</p></div></section><section id="fields.order"><h3 id="rfc.section.5.3"><a href="##rfc.section.5.3">5.3.</a>&nbsp;<a href="##fields.order">Field Order</a></h3><div id="rfc.section.5.3.p.1"><p>A recipient <em class="bcp14">MAY</em> combine multiple field lines within a field section that have the same field name into one field line, without changing the semantics of the message, by appending each subsequent field line value to the initial field line value in order, separated by a comma (",") and optional whitespace (<a href="##whitespace" class="smpl">OWS</a>, defined in <a href="##whitespace" title="Whitespace">Section 5.6.3</a>). For consistency, use comma SP.</p></div><div id="rfc.section.5.3.p.2"><p>The order in which field lines with the same name are received is therefore significant to the interpretation of the field value; a proxy <em class="bcp14">MUST NOT</em> change the order of these field line values when forwarding a message.</p></div><div id="rfc.section.5.3.p.3"><p>This means that, aside from the well-known exception noted below, a sender <em class="bcp14">MUST NOT</em> generate multiple field lines with the same name in a message (whether in the headers or trailers) or append a field line when a field line of the same name already exists in the message, unless that field's definition allows multiple field line values to be recombined as a comma-separated list (i.e., at least one alternative of the field's definition allows a comma-separated list, such as an ABNF rule of #(values) defined in <a href="##abnf.extension" title="Lists (#rule ABNF Extension)">Section 5.6.1</a>).</p></div><div id="rfc.section.5.3.p.4"><aside><div id="rfc.section.5.3.p.4.1"><p><b>Note:</b> In practice, the "Set-Cookie" header field (<a href="##COOKIE" id="rfc.xref.COOKIE.2"><cite title="HTTP State Management Mechanism">[COOKIE]</cite></a>) often appears in a response message across multiple field lines and does not use the list syntax, violating the above requirements on multiple field lines with the same field name. Since it cannot be combined into a single field value, recipients ought to handle "Set-Cookie" as a special case while processing fields. (See Appendix A.2.3 of <a href="##Kri2001" id="rfc.xref.Kri2001.1"><cite title="HTTP Cookies: Standards, Privacy, and Politics">[Kri2001]</cite></a> for details.)</p></div></aside></div><div id="rfc.section.5.3.p.5"><p>The order in which field lines with differing field names are received in a section is not significant. However, it is good practice to send header fields that contain additional control data first, such as <a href="##field.host" class="smpl">Host</a> on requests and <a href="##field.date" class="smpl">Date</a> on responses, so that implementations can decide when not to handle a message as early as possible.</p></div><div id="rfc.section.5.3.p.6"><p>A server <em class="bcp14">MUST NOT</em> apply a request to the target resource until it receives the entire request header section, since later header field lines might include conditionals, authentication credentials, or deliberately misleading duplicate header fields that could impact request processing.</p></div></section><section id="fields.limits"><h3 id="rfc.section.5.4"><a href="##rfc.section.5.4">5.4.</a>&nbsp;<a href="##fields.limits">Field Limits</a></h3><div id="rfc.section.5.4.p.1"><p>HTTP does not place a predefined limit on the length of each field line, field value, or on the length of a header or trailer section as a whole, as described in <a href="##conformance" title="Conformance">Section 2</a>. Various ad hoc limitations on individual lengths are found in practice, often depending on the specific field's semantics.</p></div><div id="rfc.section.5.4.p.2"><p>A server that receives a request header field line, field value, or set of fields larger than it wishes to process <em class="bcp14">MUST</em> respond with an appropriate <a href="##status.4xx" class="smpl">4xx (Client Error)</a> status code. Ignoring such header fields would increase the server's vulnerability to request smuggling attacks (<a href="https://httpwg.org/specs/rfc9112.html#request.smuggling" title="Request Smuggling">Section 11.2</a> of <a href="##HTTP11" id="rfc.xref.HTTP11.4"><cite title="HTTP/1.1">[HTTP/1.1]</cite></a>).</p></div><div id="rfc.section.5.4.p.3"><p>A client <em class="bcp14">MAY</em> discard or truncate received field lines that are larger than the client wishes to process if the field semantics are such that the dropped value(s) can be safely ignored without changing the message framing or response semantics.</p></div></section><section id="fields.values"><h3 id="rfc.section.5.5"><a href="##rfc.section.5.5">5.5.</a>&nbsp;<a href="##fields.values">Field Values</a></h3><div id="rfc.section.5.5.p.1"><p>HTTP field values consist of a sequence of characters in a format defined by the field's grammar. Each field's grammar is usually defined using ABNF (<a href="##RFC5234" id="rfc.xref.RFC5234.3"><cite title="Augmented BNF for Syntax Specifications: ABNF">[RFC5234]</cite></a>).</p></div><div id="rfc.section.5.5.p.2"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.14"></span><span id="rfc.iref.g.15"></span><span id="rfc.iref.g.16"></span><span id="rfc.iref.g.17"></span><span class="pln">  </span><a href="##fields.values" class="smpl"><span class="typ">field-value</span></a><span class="pln">    </span><span class="pun">=</span><span class="pln"> </span><span class="pun">*</span><a href="##fields.values" class="smpl"><span class="typ">field-content</span></a><span class="pln">
  </span><a href="##fields.values" class="smpl"><span class="typ">field-content</span></a><span class="pln">  </span><span class="pun">=</span><span class="pln"> </span><a href="##fields.values" class="smpl"><span class="typ">field-vchar</span></a><span class="pln">
                   </span><span class="pun">[</span><span class="pln"> 1</span><span class="pun">*(</span><span class="pln"> </span><a href="##core.rules" class="smpl"><span class="typ">SP</span></a><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><a href="##core.rules" class="smpl"><span class="typ">HTAB</span></a><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><a href="##fields.values" class="smpl"><span class="typ">field-vchar</span></a><span class="pln"> </span><span class="pun">)</span><span class="pln"> </span><a href="##fields.values" class="smpl"><span class="typ">field-vchar</span></a><span class="pln"> </span><span class="pun">]</span><span class="pln">
  </span><a href="##fields.values" class="smpl"><span class="typ">field-vchar</span></a><span class="pln">    </span><span class="pun">=</span><span class="pln"> </span><a href="##core.rules" class="smpl"><span class="typ">VCHAR</span></a><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><a href="##fields.values" class="smpl"><span class="typ">obs-text</span></a><span class="pln">
  </span><a href="##fields.values" class="smpl"><span class="typ">obs-text</span></a><span class="pln">       </span><span class="pun">=</span><span class="pln"> </span><span class="lit">%x80-FF</span></pre></div><div id="rfc.section.5.5.p.3"><p>A field value does not include leading or trailing whitespace. When a specific version of HTTP allows such whitespace to appear in a message, a field parsing implementation <em class="bcp14">MUST</em> exclude such whitespace prior to evaluating the field value.</p></div><div id="rfc.section.5.5.p.4"><p>Field values are usually constrained to the range of US-ASCII characters <a href="##USASCII" id="rfc.xref.USASCII.1"><cite title="Coded Character Set -- 7-bit American Standard Code for Information Interchange">[USASCII]</cite></a>. Fields needing a greater range of characters can use an encoding, such as the one defined in <a href="##RFC8187" id="rfc.xref.RFC8187.1"><cite title="Indicating Character Encoding and Language for HTTP Header Field Parameters">[RFC8187]</cite></a>. Historically, HTTP allowed field content with text in the ISO-8859-1 charset <a href="##ISO-8859-1" id="rfc.xref.ISO-8859-1.1"><cite title="Information technology -- 8-bit single-byte coded graphic character sets -- Part 1: Latin alphabet No. 1">[ISO-8859-1]</cite></a>, supporting other charsets only through use of <a href="##RFC2047" id="rfc.xref.RFC2047.1"><cite title="MIME (Multipurpose Internet Mail Extensions) Part Three: Message Header Extensions for Non-ASCII Text">[RFC2047]</cite></a> encoding. Specifications for newly defined fields <em class="bcp14">SHOULD</em> limit their values to visible US-ASCII octets (VCHAR), SP, and HTAB. A recipient <em class="bcp14">SHOULD</em> treat other allowed octets in field content (i.e., <a href="##fields.values" class="smpl">obs-text</a>) as opaque data.</p></div><div id="rfc.section.5.5.p.5"><p>Field values containing CR, LF, or NUL characters are invalid and dangerous, due to the varying ways that implementations might parse and interpret those characters; a recipient of CR, LF, or NUL within a field value <em class="bcp14">MUST</em> either reject the message or replace each of those characters with SP before further processing or forwarding of that message. Field values containing other CTL characters are also invalid; however, recipients <em class="bcp14">MAY</em> retain such characters for the sake of robustness when they appear within a safe context (e.g., an application-specific quoted string that will not be processed by any downstream HTTP parser).</p></div><div id="rfc.section.5.5.p.6"><p><span id="rfc.iref.s.2"></span>Fields that only anticipate a single member as the field value are referred to as <dfn>singleton fields</dfn>.</p></div><div id="rfc.section.5.5.p.7"><p><span id="rfc.iref.l.1"></span>Fields that allow multiple members as the field value are referred to as <dfn>list-based fields</dfn>. The list operator extension of <a href="##abnf.extension" title="Lists (#rule ABNF Extension)">Section 5.6.1</a> is used as a common notation for defining field values that can contain multiple members.</p></div><div id="rfc.section.5.5.p.8"><p>Because commas (",") are used as the delimiter between members, they need to be treated with care if they are allowed as data within a member. This is true for both list-based and singleton fields, since a singleton field might be erroneously sent with multiple members and detecting such errors improves interoperability. Fields that expect to contain a comma within a member, such as within an <a href="##http.date" class="smpl">HTTP-date</a> or <a href="##uri.references" class="smpl">URI-reference</a> element, ought to be defined with delimiters around that element to distinguish any comma within that data from potential list separators.</p></div><div id="rfc.section.5.5.p.9" class="avoidbreakafter"><p>For example, a textual date and a URI (either of which might contain a comma) could be safely carried in list-based field values like these:</p></div><div id="rfc.section.5.5.p.10"><pre class="text">Example-URIs: "http://example.com/a.html,foo",
              "http://without-a-comma.example.com/"
Example-Dates: "Sat, 04 May 1996", "Wed, 14 Sep 2005"
</pre></div><div id="rfc.section.5.5.p.11"><p>Note that double-quote delimiters are almost always used with the quoted-string production (<a href="##quoted.strings" title="Quoted Strings">Section 5.6.4</a>); using a different syntax inside double-quotes will likely cause unnecessary confusion.</p></div><div id="rfc.section.5.5.p.12"><p>Many fields (such as <a href="##field.content-type" class="smpl">Content-Type</a>, defined in <a href="##field.content-type" id="rfc.xref.field.content-type.1" title="Content-Type">Section 8.3</a>) use a common syntax for parameters that allows both unquoted (token) and quoted (quoted-string) syntax for a parameter value (<a href="##parameter" title="Parameters">Section 5.6.6</a>). Use of common syntax allows recipients to reuse existing parser components. When allowing both forms, the meaning of a parameter value ought to be the same whether it was received as a token or a quoted string.</p></div><div id="rfc.section.5.5.p.13"><aside><div id="rfc.section.5.5.p.13.1"><p><b>Note:</b> For defining field value syntax, this specification uses an ABNF rule named after the field name to define the allowed grammar for that field's value (after said value has been extracted from the underlying messaging syntax and multiple instances combined into a list).</p></div></aside></div></section><section id="fields.components"><h3 id="rfc.section.5.6"><a href="##rfc.section.5.6">5.6.</a>&nbsp;<a href="##fields.components">Common Rules for Defining Field Values</a></h3><section id="abnf.extension"><h4 id="rfc.section.5.6.1"><a href="##rfc.section.5.6.1">5.6.1.</a>&nbsp;<a href="##abnf.extension">Lists (#rule ABNF Extension)</a></h4><div id="rfc.section.5.6.1.p.1"><p>A #rule extension to the ABNF rules of <a href="##RFC5234" id="rfc.xref.RFC5234.4"><cite title="Augmented BNF for Syntax Specifications: ABNF">[RFC5234]</cite></a> is used to improve readability in the definitions of some list-based field values.</p></div><div id="rfc.section.5.6.1.p.2"><p>A construct "#" is defined, similar to "*", for defining comma-delimited lists of elements. The full form is "&lt;n&gt;#&lt;m&gt;element" indicating at least &lt;n&gt; and at most &lt;m&gt; elements, each separated by a single comma (",") and optional whitespace (<a href="##whitespace" class="smpl">OWS</a>, defined in <a href="##whitespace" title="Whitespace">Section 5.6.3</a>).</p></div><section id="abnf.extension.sender"><h5 id="rfc.section.5.6.1.1"><a href="##rfc.section.5.6.1.1">5.6.1.1.</a>&nbsp;<a href="##abnf.extension.sender">Sender Requirements</a></h5><div id="rfc.section.5.6.1.1.p.1" class="avoidbreakafter"><p>In any production that uses the list construct, a sender <em class="bcp14">MUST NOT</em> generate empty list elements. In other words, a sender has to generate lists that satisfy the following syntax:</p></div><div id="rfc.section.5.6.1.1.p.2"><pre class="text">  1#element =&gt; element *( OWS "," OWS element )
</pre></div><div id="rfc.section.5.6.1.1.p.3" class="avoidbreakafter"><p>and:</p></div><div id="rfc.section.5.6.1.1.p.4"><pre class="text">  #element =&gt; [ 1#element ]
</pre></div><div id="rfc.section.5.6.1.1.p.5" class="avoidbreakafter"><p>and for n &gt;= 1 and m &gt; 1:</p></div><div id="rfc.section.5.6.1.1.p.6"><pre class="text">  &lt;n&gt;#&lt;m&gt;element =&gt; element &lt;n-1&gt;*&lt;m-1&gt;( OWS "," OWS element )
</pre></div><div id="rfc.section.5.6.1.1.p.7"><p><a href="##collected.abnf" title="Collected ABNF">Appendix A</a> shows the collected ABNF for senders after the list constructs have been expanded.</p></div></section><section id="abnf.extension.recipient"><h5 id="rfc.section.5.6.1.2"><a href="##rfc.section.5.6.1.2">5.6.1.2.</a>&nbsp;<a href="##abnf.extension.recipient">Recipient Requirements</a></h5><div id="rfc.section.5.6.1.2.p.1" class="avoidbreakafter"><p>Empty elements do not contribute to the count of elements present. A recipient <em class="bcp14">MUST</em> parse and ignore a reasonable number of empty list elements: enough to handle common mistakes by senders that merge values, but not so much that they could be used as a denial-of-service mechanism. In other words, a recipient <em class="bcp14">MUST</em> accept lists that satisfy the following syntax:</p></div><div id="rfc.section.5.6.1.2.p.2"><pre class="text">  #element =&gt; [ element ] *( OWS "," OWS [ element ] )
</pre></div><div id="rfc.section.5.6.1.2.p.3"><p>Note that because of the potential presence of empty list elements, the RFC 5234 ABNF cannot enforce the cardinality of list elements, and consequently all cases are mapped as if there was no cardinality specified.</p></div><div id="rfc.section.5.6.1.2.p.4" class="avoidbreakafter"><p>For example, given these ABNF productions:</p></div><div id="rfc.section.5.6.1.2.p.5"><pre class="text">  example-list      = 1#example-list-elmt
  example-list-elmt = token ; see <a href="##tokens" title="Tokens">Section 5.6.2</a>
</pre></div><div id="rfc.section.5.6.1.2.p.6" class="avoidbreakafter"><p>Then the following are valid values for example-list (not including the double quotes, which are present for delimitation only):</p></div><div id="rfc.section.5.6.1.2.p.7"><pre class="text">  "foo,bar"
  "foo ,bar,"
  "foo , ,bar,charlie"
</pre></div><div id="rfc.section.5.6.1.2.p.8" class="avoidbreakafter"><p>In contrast, the following values would be invalid, since at least one non-empty element is required by the example-list production:</p></div><div id="rfc.section.5.6.1.2.p.9"><pre class="text">  ""
  ","
  ",   ,"
</pre></div></section></section><section id="tokens"><h4 id="rfc.section.5.6.2"><a href="##rfc.section.5.6.2">5.6.2.</a>&nbsp;<a href="##tokens">Tokens</a></h4><div id="rfc.section.5.6.2.p.1"><p id="rule.token.separators">Tokens are short textual identifiers that do not include whitespace or delimiters.</p></div><div id="rfc.section.5.6.2.p.2"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.18"></span><span id="rfc.iref.g.19"></span><span class="pln">  </span><a href="##rule.token.separators" class="smpl"><span class="typ">token</span></a><span class="pln">          </span><span class="pun">=</span><span class="pln"> 1</span><span class="pun">*</span><a href="##rule.token.separators" class="smpl"><span class="typ">tchar</span></a><span class="pln">

  </span><a href="##rule.token.separators" class="smpl"><span class="typ">tchar</span></a><span class="pln">          </span><span class="pun">=</span><span class="pln"> </span><span class="str">"!"</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="str">"#"</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="str">"$"</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="str">"%"</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="str">"&amp;"</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="str">"'"</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="str">"*"</span><span class="pln">
                 </span><span class="pun">/</span><span class="pln"> </span><span class="str">"+"</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="str">"-"</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="str">"."</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="str">"^"</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="str">"_"</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="str">"`"</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="str">"|"</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="str">"~"</span><span class="pln">
                 </span><span class="pun">/</span><span class="pln"> </span><a href="##core.rules" class="smpl"><span class="typ">DIGIT</span></a><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><a href="##core.rules" class="smpl"><span class="typ">ALPHA</span></a><span class="pln">
                 </span><span class="com">; any </span><a href="##core.rules" class="smpl"><span class="com">VCHAR</span></a><span class="com">, except delimiters</span></pre></div><div id="rfc.section.5.6.2.p.3"><p id="delimiters"><span id="rfc.iref.d.2"></span>Many HTTP field values are defined using common syntax components, separated by whitespace or specific delimiting characters. Delimiters are chosen from the set of US-ASCII visual characters not allowed in a <a href="##rule.token.separators" class="smpl">token</a> (DQUOTE and "(),/:;&lt;=&gt;?@[\]{}").</p></div></section><section id="whitespace"><h4 id="rfc.section.5.6.3"><a href="##rfc.section.5.6.3">5.6.3.</a>&nbsp;<a href="##whitespace">Whitespace</a></h4><div id="rfc.section.5.6.3.p.1"><p>This specification uses three rules to denote the use of linear whitespace: OWS (optional whitespace), RWS (required whitespace), and BWS ("bad" whitespace).</p></div><div id="rfc.section.5.6.3.p.2"><p>The OWS rule is used where zero or more linear whitespace octets might appear. For protocol elements where optional whitespace is preferred to improve readability, a sender <em class="bcp14">SHOULD</em> generate the optional whitespace as a single SP; otherwise, a sender <em class="bcp14">SHOULD NOT</em> generate optional whitespace except as needed to overwrite invalid or unwanted protocol elements during in-place message filtering.</p></div><div id="rfc.section.5.6.3.p.3"><p>The RWS rule is used when at least one linear whitespace octet is required to separate field tokens. A sender <em class="bcp14">SHOULD</em> generate RWS as a single SP.</p></div><div id="rfc.section.5.6.3.p.4"><p>OWS and RWS have the same semantics as a single SP. Any content known to be defined as OWS or RWS <em class="bcp14">MAY</em> be replaced with a single SP before interpreting it or forwarding the message downstream.</p></div><div id="rfc.section.5.6.3.p.5"><p>The BWS rule is used where the grammar allows optional whitespace only for historical reasons. A sender <em class="bcp14">MUST NOT</em> generate BWS in messages. A recipient <em class="bcp14">MUST</em> parse for such bad whitespace and remove it before interpreting the protocol element.</p></div><div id="rfc.section.5.6.3.p.6"><p>BWS has no semantics. Any content known to be defined as BWS <em class="bcp14">MAY</em> be removed before interpreting it or forwarding the message downstream.</p></div><div id="rfc.section.5.6.3.p.7"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.20"></span><span id="rfc.iref.g.21"></span><span id="rfc.iref.g.22"></span><span class="pln">  </span><a href="##whitespace" class="smpl"><span class="typ">OWS</span></a><span class="pln">            </span><span class="pun">=</span><span class="pln"> </span><span class="pun">*(</span><span class="pln"> </span><a href="##core.rules" class="smpl"><span class="typ">SP</span></a><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><a href="##core.rules" class="smpl"><span class="typ">HTAB</span></a><span class="pln"> </span><span class="pun">)</span><span class="pln">
                 </span><span class="com">; optional whitespace</span><span class="pln">
  </span><a href="##whitespace" class="smpl"><span class="typ">RWS</span></a><span class="pln">            </span><span class="pun">=</span><span class="pln"> 1</span><span class="pun">*(</span><span class="pln"> </span><a href="##core.rules" class="smpl"><span class="typ">SP</span></a><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><a href="##core.rules" class="smpl"><span class="typ">HTAB</span></a><span class="pln"> </span><span class="pun">)</span><span class="pln">
                 </span><span class="com">; required whitespace</span><span class="pln">
  </span><a href="##whitespace" class="smpl"><span class="typ">BWS</span></a><span class="pln">            </span><span class="pun">=</span><span class="pln"> </span><a href="##whitespace" class="smpl"><span class="typ">OWS</span></a><span class="pln">
                 </span><span class="com">; "bad" whitespace</span></pre></div></section><section id="quoted.strings"><h4 id="rfc.section.5.6.4"><a href="##rfc.section.5.6.4">5.6.4.</a>&nbsp;<a href="##quoted.strings">Quoted Strings</a></h4><div id="rfc.section.5.6.4.p.1"><p id="rule.quoted-string">A string of text is parsed as a single value if it is quoted using double-quote marks.</p></div><div id="rfc.section.5.6.4.p.2"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.23"></span><span id="rfc.iref.g.24"></span><span class="pln">  </span><a href="##rule.quoted-string" class="smpl"><span class="typ">quoted-string</span></a><span class="pln">  </span><span class="pun">=</span><span class="pln"> </span><a href="##core.rules" class="smpl"><span class="typ">DQUOTE</span></a><span class="pln"> </span><span class="pun">*(</span><span class="pln"> </span><a href="##rule.quoted-string" class="smpl"><span class="typ">qdtext</span></a><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><a href="##rule.quoted-pair" class="smpl"><span class="typ">quoted-pair</span></a><span class="pln"> </span><span class="pun">)</span><span class="pln"> </span><a href="##core.rules" class="smpl"><span class="typ">DQUOTE</span></a><span class="pln">
  </span><a href="##rule.quoted-string" class="smpl"><span class="typ">qdtext</span></a><span class="pln">         </span><span class="pun">=</span><span class="pln"> </span><a href="##core.rules" class="smpl"><span class="typ">HTAB</span></a><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><a href="##core.rules" class="smpl"><span class="typ">SP</span></a><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="lit">%x21</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="lit">%x23-5B</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="lit">%x5D-7E</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><a href="##fields.values" class="smpl"><span class="typ">obs-text</span></a>
</pre></div><div id="rfc.section.5.6.4.p.3"><p id="rule.quoted-pair">The backslash octet ("\") can be used as a single-octet quoting mechanism within quoted-string and comment constructs. Recipients that process the value of a quoted-string <em class="bcp14">MUST</em> handle a quoted-pair as if it were replaced by the octet following the backslash.</p></div><div id="rfc.section.5.6.4.p.4"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.25"></span><span class="pln">  </span><a href="##rule.quoted-pair" class="smpl"><span class="typ">quoted-pair</span></a><span class="pln">    </span><span class="pun">=</span><span class="pln"> </span><span class="str">"\"</span><span class="pln"> </span><span class="pun">(</span><span class="pln"> </span><a href="##core.rules" class="smpl"><span class="typ">HTAB</span></a><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><a href="##core.rules" class="smpl"><span class="typ">SP</span></a><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><a href="##core.rules" class="smpl"><span class="typ">VCHAR</span></a><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><a href="##fields.values" class="smpl"><span class="typ">obs-text</span></a><span class="pln"> </span><span class="pun">)</span></pre></div><div id="rfc.section.5.6.4.p.5"><p>A sender <em class="bcp14">SHOULD NOT</em> generate a quoted-pair in a quoted-string except where necessary to quote DQUOTE and backslash octets occurring within that string. A sender <em class="bcp14">SHOULD NOT</em> generate a quoted-pair in a comment except where necessary to quote parentheses ["(" and ")"] and backslash octets occurring within that comment.</p></div></section><section id="comments"><h4 id="rfc.section.5.6.5"><a href="##rfc.section.5.6.5">5.6.5.</a>&nbsp;<a href="##comments">Comments</a></h4><div id="rfc.section.5.6.5.p.1"><p id="rule.comment">Comments can be included in some HTTP fields by surrounding the comment text with parentheses. Comments are only allowed in fields containing "comment" as part of their field value definition.</p></div><div id="rfc.section.5.6.5.p.2"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.26"></span><span id="rfc.iref.g.27"></span><span class="pln">  </span><a href="##rule.comment" class="smpl"><span class="typ">comment</span></a><span class="pln">        </span><span class="pun">=</span><span class="pln"> </span><span class="str">"("</span><span class="pln"> </span><span class="pun">*(</span><span class="pln"> </span><a href="##rule.comment" class="smpl"><span class="typ">ctext</span></a><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><a href="##rule.quoted-pair" class="smpl"><span class="typ">quoted-pair</span></a><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><a href="##rule.comment" class="smpl"><span class="typ">comment</span></a><span class="pln"> </span><span class="pun">)</span><span class="pln"> </span><span class="str">")"</span><span class="pln">
  </span><a href="##rule.comment" class="smpl"><span class="typ">ctext</span></a><span class="pln">          </span><span class="pun">=</span><span class="pln"> </span><a href="##core.rules" class="smpl"><span class="typ">HTAB</span></a><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><a href="##core.rules" class="smpl"><span class="typ">SP</span></a><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="lit">%x21-27</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="lit">%x2A-5B</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="lit">%x5D-7E</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><a href="##fields.values" class="smpl"><span class="typ">obs-text</span></a>
</pre></div></section><section id="parameter"><h4 id="rfc.section.5.6.6"><a href="##rfc.section.5.6.6">5.6.6.</a>&nbsp;<a href="##parameter">Parameters</a></h4><div id="rfc.section.5.6.6.p.1"><p id="rule.parameter">Parameters are instances of name/value pairs; they are often used in field values as a common syntax for appending auxiliary information to an item. Each parameter is usually delimited by an immediately preceding semicolon.</p></div><div id="rfc.section.5.6.6.p.2"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.28"></span><span id="rfc.iref.g.29"></span><span id="rfc.iref.g.30"></span><span id="rfc.iref.g.31"></span><span class="pln">  </span><a href="##rule.parameter" class="smpl"><span class="typ">parameters</span></a><span class="pln">      </span><span class="pun">=</span><span class="pln"> </span><span class="pun">*(</span><span class="pln"> </span><span class="typ">OWS</span><span class="pln"> </span><span class="str">";"</span><span class="pln"> </span><span class="typ">OWS</span><span class="pln"> </span><span class="pun">[</span><span class="pln"> </span><a href="##parameter" class="smpl"><span class="typ">parameter</span></a><span class="pln"> </span><span class="pun">]</span><span class="pln"> </span><span class="pun">)</span><span class="pln">
  </span><a href="##parameter" class="smpl"><span class="typ">parameter</span></a><span class="pln">       </span><span class="pun">=</span><span class="pln"> </span><a href="##rule.parameter" class="smpl"><span class="typ">parameter-name</span></a><span class="pln"> </span><span class="str">"="</span><span class="pln"> </span><a href="##rule.parameter" class="smpl"><span class="typ">parameter-value</span></a><span class="pln">
  </span><a href="##rule.parameter" class="smpl"><span class="typ">parameter-name</span></a><span class="pln">  </span><span class="pun">=</span><span class="pln"> </span><a href="##rule.token.separators" class="smpl"><span class="typ">token</span></a><span class="pln">
  </span><a href="##rule.parameter" class="smpl"><span class="typ">parameter-value</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="pun">(</span><span class="pln"> </span><a href="##rule.token.separators" class="smpl"><span class="typ">token</span></a><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><a href="##rule.quoted-string" class="smpl"><span class="typ">quoted-string</span></a><span class="pln"> </span><span class="pun">)</span></pre></div><div id="rfc.section.5.6.6.p.3"><p>Parameter names are case-insensitive. Parameter values might or might not be case-sensitive, depending on the semantics of the parameter name. Examples of parameters and some equivalent forms can be seen in media types (<a href="##media.type" title="Media Type">Section 8.3.1</a>) and the Accept header field (<a href="##field.accept" id="rfc.xref.field.accept.1" title="Accept">Section 12.5.1</a>).</p></div><div id="rfc.section.5.6.6.p.4"><p>A parameter value that matches the <a href="##rule.token.separators" class="smpl">token</a> production can be transmitted either as a token or within a quoted-string. The quoted and unquoted values are equivalent.</p></div><div id="rfc.section.5.6.6.p.5"><aside><div id="rfc.section.5.6.6.p.5.1"><p><b>Note:</b> Parameters do not allow whitespace (not even "bad" whitespace) around the "=" character.</p></div></aside></div></section><section id="http.date"><h4 id="rfc.section.5.6.7"><a href="##rfc.section.5.6.7">5.6.7.</a>&nbsp;<a href="##http.date">Date/Time Formats</a></h4><div id="rfc.section.5.6.7.p.1"><p>Prior to 1995, there were three different formats commonly used by servers to communicate timestamps. For compatibility with old implementations, all three are defined here. The preferred format is a fixed-length and single-zone subset of the date and time specification used by the Internet Message Format <a href="##RFC5322" id="rfc.xref.RFC5322.1"><cite title="Internet Message Format">[RFC5322]</cite></a>.</p></div><div id="rfc.section.5.6.7.p.2"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.32"></span><span class="pln">  </span><a href="##http.date" class="smpl"><span class="typ">HTTP-date</span></a><span class="pln">    </span><span class="pun">=</span><span class="pln"> </span><a href="##preferred.date.format" class="smpl"><span class="typ">IMF-fixdate</span></a><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><a href="##obsolete.date.formats" class="smpl"><span class="typ">obs-date</span></a>
</pre></div><div id="rfc.section.5.6.7.p.3"><p>An example of the preferred format is</p></div><div id="rfc.section.5.6.7.p.4"><pre class="text">Sun, 06 Nov 1994 08:49:37 GMT    ; IMF-fixdate
</pre></div><div id="rfc.section.5.6.7.p.5"><p>Examples of the two obsolete formats are</p></div><div id="rfc.section.5.6.7.p.6"><pre class="text">Sunday, 06-Nov-94 08:49:37 GMT   ; obsolete RFC 850 format
Sun Nov  6 08:49:37 1994         ; ANSI C's asctime() format
</pre></div><div id="rfc.section.5.6.7.p.7"><p>A recipient that parses a timestamp value in an HTTP field <em class="bcp14">MUST</em> accept all three HTTP-date formats. When a sender generates a field that contains one or more timestamps defined as HTTP-date, the sender <em class="bcp14">MUST</em> generate those timestamps in the IMF-fixdate format.</p></div><div id="rfc.section.5.6.7.p.8"><p>An HTTP-date value represents time as an instance of Coordinated Universal Time (UTC). The first two formats indicate UTC by the three-letter abbreviation for Greenwich Mean Time, "GMT", a predecessor of the UTC name; values in the asctime format are assumed to be in UTC.</p></div><div id="rfc.section.5.6.7.p.9"><p>A <dfn>clock</dfn> is an implementation capable of providing a reasonable approximation of the current instant in UTC. A clock implementation ought to use NTP (<a href="##RFC5905" id="rfc.xref.RFC5905.1"><cite title="Network Time Protocol Version 4: Protocol and Algorithms Specification">[RFC5905]</cite></a>), or some similar protocol, to synchronize with UTC.</p></div><div id="rfc.section.5.6.7.p.10" class="avoidbreakafter"><p id="preferred.date.format">Preferred format:</p></div><div id="rfc.section.5.6.7.p.11"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.33"></span><span id="rfc.iref.g.34"></span><span id="rfc.iref.g.35"></span><span id="rfc.iref.g.36"></span><span id="rfc.iref.g.37"></span><span id="rfc.iref.g.38"></span><span id="rfc.iref.g.39"></span><span id="rfc.iref.g.40"></span><span id="rfc.iref.g.41"></span><span id="rfc.iref.g.42"></span><span id="rfc.iref.g.43"></span><span id="rfc.iref.g.44"></span><span class="pln">  </span><a href="##preferred.date.format" class="smpl"><span class="typ">IMF-fixdate</span></a><span class="pln">  </span><span class="pun">=</span><span class="pln"> </span><a href="##preferred.date.format" class="smpl"><span class="typ">day-name</span></a><span class="pln"> </span><span class="str">","</span><span class="pln"> </span><a href="##core.rules" class="smpl"><span class="typ">SP</span></a><span class="pln"> </span><span class="typ">date1</span><span class="pln"> </span><a href="##core.rules" class="smpl"><span class="typ">SP</span></a><span class="pln"> </span><a href="##preferred.date.format" class="smpl"><span class="typ">time-of-day</span></a><span class="pln"> </span><a href="##core.rules" class="smpl"><span class="typ">SP</span></a><span class="pln"> </span><a href="##preferred.date.format" class="smpl"><span class="typ">GMT</span></a><span class="pln">
  </span><span class="com">; fixed length/zone/capitalization subset of the format</span><span class="pln">
  </span><span class="com">; see </span><a href="https://www.rfc-editor.org/rfc/rfc5322.html#section-3.3"><span class="com">Section 3.3</span></a><span class="com"> of </span><a href="##RFC5322" id="rfc.xref.RFC5322.2"><cite title="Internet Message Format"><span class="com">[RFC5322]</span></cite></a><span class="pln">

  </span><a href="##preferred.date.format" class="smpl"><span class="typ">day-name</span></a><span class="pln">     </span><span class="pun">=</span><span class="pln"> </span><span class="str">%s"Mon"</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="str">%s"Tue"</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="str">%s"Wed"</span><span class="pln">
               </span><span class="pun">/</span><span class="pln"> </span><span class="str">%s"Thu"</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="str">%s"Fri"</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="str">%s"Sat"</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="str">%s"Sun"</span><span class="pln">

  </span><a href="##obsolete.date.formats" class="smpl"><span class="typ">date1</span></a><span class="pln">        </span><span class="pun">=</span><span class="pln"> </span><a href="##preferred.date.format" class="smpl"><span class="typ">day</span></a><span class="pln"> </span><a href="##core.rules" class="smpl"><span class="typ">SP</span></a><span class="pln"> </span><a href="##preferred.date.format" class="smpl"><span class="typ">month</span></a><span class="pln"> </span><a href="##core.rules" class="smpl"><span class="typ">SP</span></a><span class="pln"> </span><a href="##preferred.date.format" class="smpl"><span class="typ">year</span></a><span class="pln">
               </span><span class="com">; e.g., 02 Jun 1982</span><span class="pln">

  </span><a href="##preferred.date.format" class="smpl"><span class="typ">day</span></a><span class="pln">          </span><span class="pun">=</span><span class="pln"> 2</span><a href="##core.rules" class="smpl"><span class="typ">DIGIT</span></a><span class="pln">
  </span><a href="##preferred.date.format" class="smpl"><span class="typ">month</span></a><span class="pln">        </span><span class="pun">=</span><span class="pln"> </span><span class="str">%s"Jan"</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="str">%s"Feb"</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="str">%s"Mar"</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="str">%s"Apr"</span><span class="pln">
               </span><span class="pun">/</span><span class="pln"> </span><span class="str">%s"May"</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="str">%s"Jun"</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="str">%s"Jul"</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="str">%s"Aug"</span><span class="pln">
               </span><span class="pun">/</span><span class="pln"> </span><span class="str">%s"Sep"</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="str">%s"Oct"</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="str">%s"Nov"</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="str">%s"Dec"</span><span class="pln">
  </span><a href="##preferred.date.format" class="smpl"><span class="typ">year</span></a><span class="pln">         </span><span class="pun">=</span><span class="pln"> 4</span><a href="##core.rules" class="smpl"><span class="typ">DIGIT</span></a><span class="pln">

  </span><a href="##preferred.date.format" class="smpl"><span class="typ">GMT</span></a><span class="pln">          </span><span class="pun">=</span><span class="pln"> </span><span class="str">%s"GMT"</span><span class="pln">

  </span><a href="##preferred.date.format" class="smpl"><span class="typ">time-of-day</span></a><span class="pln">  </span><span class="pun">=</span><span class="pln"> </span><a href="##preferred.date.format" class="smpl"><span class="typ">hour</span></a><span class="pln"> </span><span class="str">":"</span><span class="pln"> </span><a href="##preferred.date.format" class="smpl"><span class="typ">minute</span></a><span class="pln"> </span><span class="str">":"</span><span class="pln"> </span><a href="##preferred.date.format" class="smpl"><span class="typ">second</span></a><span class="pln">
               </span><span class="com">; 00:00:00 - 23:59:60 (leap second)</span><span class="pln">

  </span><a href="##preferred.date.format" class="smpl"><span class="typ">hour</span></a><span class="pln">         </span><span class="pun">=</span><span class="pln"> 2</span><a href="##core.rules" class="smpl"><span class="typ">DIGIT</span></a><span class="pln">
  </span><a href="##preferred.date.format" class="smpl"><span class="typ">minute</span></a><span class="pln">       </span><span class="pun">=</span><span class="pln"> 2</span><a href="##core.rules" class="smpl"><span class="typ">DIGIT</span></a><span class="pln">
  </span><a href="##preferred.date.format" class="smpl"><span class="typ">second</span></a><span class="pln">       </span><span class="pun">=</span><span class="pln"> 2</span><a href="##core.rules" class="smpl"><span class="typ">DIGIT</span></a>
</pre></div><div id="rfc.section.5.6.7.p.12" class="avoidbreakafter"><p id="obsolete.date.formats">Obsolete formats:</p></div><div id="rfc.section.5.6.7.p.13"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.45"></span><span class="pln">  </span><a href="##obsolete.date.formats" class="smpl"><span class="typ">obs-date</span></a><span class="pln">     </span><span class="pun">=</span><span class="pln"> </span><a href="##obsolete.date.formats" class="smpl"><span class="typ">rfc850-date</span></a><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><a href="##obsolete.date.formats" class="smpl"><span class="typ">asctime-date</span></a>
</pre></div><div id="rfc.section.5.6.7.p.14"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.46"></span><span class="pln">  </span><a href="##obsolete.date.formats" class="smpl"><span class="typ">rfc850-date</span></a><span class="pln">  </span><span class="pun">=</span><span class="pln"> </span><a href="##obsolete.date.formats" class="smpl"><span class="typ">day-name-l</span></a><span class="pln"> </span><span class="str">","</span><span class="pln"> </span><a href="##core.rules" class="smpl"><span class="typ">SP</span></a><span class="pln"> </span><a href="##obsolete.date.formats" class="smpl"><span class="typ">date2</span></a><span class="pln"> </span><a href="##core.rules" class="smpl"><span class="typ">SP</span></a><span class="pln"> </span><a href="##preferred.date.format" class="smpl"><span class="typ">time-of-day</span></a><span class="pln"> </span><a href="##core.rules" class="smpl"><span class="typ">SP</span></a><span class="pln"> </span><a href="##preferred.date.format" class="smpl"><span class="typ">GMT</span></a><span class="pln">
  </span><a href="##obsolete.date.formats" class="smpl"><span class="typ">date2</span></a><span class="pln">        </span><span class="pun">=</span><span class="pln"> </span><a href="##preferred.date.format" class="smpl"><span class="typ">day</span></a><span class="pln"> </span><span class="str">"-"</span><span class="pln"> </span><a href="##preferred.date.format" class="smpl"><span class="typ">month</span></a><span class="pln"> </span><span class="str">"-"</span><span class="pln"> 2</span><a href="##core.rules" class="smpl"><span class="typ">DIGIT</span></a><span class="pln">
               </span><span class="com">; e.g., 02-Jun-82</span><span class="pln">

  </span><a href="##obsolete.date.formats" class="smpl"><span class="typ">day-name-l</span></a><span class="pln">   </span><span class="pun">=</span><span class="pln"> </span><span class="str">%s"Monday"</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="str">%s"Tuesday"</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="str">%s"Wednesday"</span><span class="pln">
               </span><span class="pun">/</span><span class="pln"> </span><span class="str">%s"Thursday"</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="str">%s"Friday"</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="str">%s"Saturday"</span><span class="pln">
               </span><span class="pun">/</span><span class="pln"> </span><span class="str">%s"Sunday"</span></pre></div><div id="rfc.section.5.6.7.p.15"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.47"></span><span class="pln">  </span><a href="##obsolete.date.formats" class="smpl"><span class="typ">asctime-date</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><a href="##preferred.date.format" class="smpl"><span class="typ">day-name</span></a><span class="pln"> </span><a href="##core.rules" class="smpl"><span class="typ">SP</span></a><span class="pln"> </span><a href="##obsolete.date.formats" class="smpl"><span class="typ">date3</span></a><span class="pln"> </span><a href="##core.rules" class="smpl"><span class="typ">SP</span></a><span class="pln"> </span><a href="##preferred.date.format" class="smpl"><span class="typ">time-of-day</span></a><span class="pln"> </span><a href="##core.rules" class="smpl"><span class="typ">SP</span></a><span class="pln"> </span><a href="##preferred.date.format" class="smpl"><span class="typ">year</span></a><span class="pln">
  </span><a href="##obsolete.date.formats" class="smpl"><span class="typ">date3</span></a><span class="pln">        </span><span class="pun">=</span><span class="pln"> </span><a href="##preferred.date.format" class="smpl"><span class="typ">month</span></a><span class="pln"> </span><a href="##core.rules" class="smpl"><span class="typ">SP</span></a><span class="pln"> </span><span class="pun">(</span><span class="pln"> 2</span><a href="##core.rules" class="smpl"><span class="typ">DIGIT</span></a><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="pun">(</span><span class="pln"> </span><a href="##core.rules" class="smpl"><span class="typ">SP</span></a><span class="pln"> 1</span><a href="##core.rules" class="smpl"><span class="typ">DIGIT</span></a><span class="pln"> </span><span class="pun">))</span><span class="pln">
               </span><span class="com">; e.g., Jun  2</span></pre></div><div id="rfc.section.5.6.7.p.16"><p>HTTP-date is case sensitive. Note that <a href="https://httpwg.org/specs/rfc9111.html#expiration.model" title="Freshness">Section 4.2</a> of <a href="##CACHING" id="rfc.xref.CACHING.6"><cite title="HTTP Caching">[CACHING]</cite></a> relaxes this for cache recipients.</p></div><div id="rfc.section.5.6.7.p.17"><p>A sender <em class="bcp14">MUST NOT</em> generate additional whitespace in an HTTP-date beyond that specifically included as SP in the grammar. The semantics of <a href="##preferred.date.format" class="smpl">day-name</a>, <a href="##preferred.date.format" class="smpl">day</a>, <a href="##preferred.date.format" class="smpl">month</a>, <a href="##preferred.date.format" class="smpl">year</a>, and <a href="##preferred.date.format" class="smpl">time-of-day</a> are the same as those defined for the Internet Message Format constructs with the corresponding name (<a href="##RFC5322" id="rfc.xref.RFC5322.3"><cite title="Internet Message Format">[RFC5322]</cite></a>, <a href="https://www.rfc-editor.org/rfc/rfc5322.html#section-3.3">Section 3.3</a>).</p></div><div id="rfc.section.5.6.7.p.18"><p>Recipients of a timestamp value in rfc850-date format, which uses a two-digit year, <em class="bcp14">MUST</em> interpret a timestamp that appears to be more than 50 years in the future as representing the most recent year in the past that had the same last two digits.</p></div><div id="rfc.section.5.6.7.p.19"><p>Recipients of timestamp values are encouraged to be robust in parsing timestamps unless otherwise restricted by the field definition. For example, messages are occasionally forwarded over HTTP from a non-HTTP source that might generate any of the date and time specifications defined by the Internet Message Format.</p></div><div id="rfc.section.5.6.7.p.20"><aside><div id="rfc.section.5.6.7.p.20.1"><p><b>Note:</b> HTTP requirements for timestamp formats apply only to their usage within the protocol stream. Implementations are not required to use these formats for user presentation, request logging, etc.</p></div></aside></div></section></section></section><section id="message.abstraction"><h2 id="rfc.section.6"><a href="##rfc.section.6">6.</a>&nbsp;<a href="##message.abstraction">Message Abstraction</a></h2><div id="rfc.section.6.p.1"><p>Each major version of HTTP defines its own syntax for communicating messages. This section defines an abstract data type for HTTP messages based on a generalization of those message characteristics, common structure, and capacity for conveying semantics. This abstraction is used to define requirements on senders and recipients that are independent of the HTTP version, such that a message in one version can be relayed through other versions without changing its meaning.</p></div><div id="rfc.section.6.p.2" class="avoidbreakafter"><p>A <dfn>message</dfn> consists of the following:</p></div><div id="rfc.section.6.p.3"><ul><li>control data to describe and route the message,</li><li>a headers lookup table of name/value pairs for extending that control data and conveying additional information about the sender, message, content, or context,</li><li>a potentially unbounded stream of content, and</li><li>a trailers lookup table of name/value pairs for communicating information obtained while sending the content.</li></ul></div><div id="rfc.section.6.p.4"><p>Framing and control data is sent first, followed by a header section containing fields for the headers table. When a message includes content, the content is sent after the header section, potentially followed by a trailer section that might contain fields for the trailers table.</p></div><div id="rfc.section.6.p.5"><p>Messages are expected to be processed as a stream, wherein the purpose of that stream and its continued processing is revealed while being read. Hence, control data describes what the recipient needs to know immediately, header fields describe what needs to be known before receiving content, the content (when present) presumably contains what the recipient wants or needs to fulfill the message semantics, and trailer fields provide optional metadata that was unknown prior to sending the content.</p></div><div id="rfc.section.6.p.6"><p>Messages are intended to be <dfn>self-descriptive</dfn>: everything a recipient needs to know about the message can be determined by looking at the message itself, after decoding or reconstituting parts that have been compressed or elided in transit, without requiring an understanding of the sender's current application state (established via prior messages). However, a client <em class="bcp14">MUST</em> retain knowledge of the request when parsing, interpreting, or caching a corresponding response. For example, responses to the <a href="##HEAD" class="smpl" id="rfc.extref.h.15">HEAD</a> method look just like the beginning of a response to <a href="##GET" class="smpl" id="rfc.extref.g.4">GET</a> but cannot be parsed in the same manner.</p></div><div id="rfc.section.6.p.7"><p>Note that this message abstraction is a generalization across many versions of HTTP, including features that might not be found in some versions. For example, trailers were introduced within the HTTP/1.1 chunked transfer coding as a trailer section after the content. An equivalent feature is present in HTTP/2 and HTTP/3 within the header block that terminates each stream.</p></div><section id="message.framing"><h3 id="rfc.section.6.1"><a href="##rfc.section.6.1">6.1.</a>&nbsp;<a href="##message.framing">Framing and Completeness</a></h3><div id="rfc.section.6.1.p.1"><p>Message framing indicates how each message begins and ends, such that each message can be distinguished from other messages or noise on the same connection. Each major version of HTTP defines its own framing mechanism.</p></div><div id="rfc.section.6.1.p.2"><p>HTTP/0.9 and early deployments of HTTP/1.0 used closure of the underlying connection to end a response. For backwards compatibility, this implicit framing is also allowed in HTTP/1.1. However, implicit framing can fail to distinguish an incomplete response if the connection closes early. For that reason, almost all modern implementations use explicit framing in the form of length-delimited sequences of message data.</p></div><div id="rfc.section.6.1.p.3"><p>A message is considered <dfn>complete</dfn> when all of the octets indicated by its framing are available. Note that, when no explicit framing is used, a response message that is ended by the underlying connection's close is considered complete even though it might be indistinguishable from an incomplete response, unless a transport-level error indicates that it is not complete.</p></div></section><section id="message.control.data"><h3 id="rfc.section.6.2"><a href="##rfc.section.6.2">6.2.</a>&nbsp;<a href="##message.control.data">Control Data</a></h3><div id="rfc.section.6.2.p.1"><p>Messages start with control data that describe its primary purpose. Request message control data includes a request method (<a href="##methods" title="Methods">Section 9</a>), request target (<a href="##target.resource" title="Determining the Target Resource">Section 7.1</a>), and protocol version (<a href="##protocol.version" title="Protocol Version">Section 2.5</a>). Response message control data includes a status code (<a href="##status.codes" title="Status Codes">Section 15</a>), optional reason phrase, and protocol version.</p></div><div id="rfc.section.6.2.p.2"><p>In HTTP/1.1 (<a href="##HTTP11" id="rfc.xref.HTTP11.5"><cite title="HTTP/1.1">[HTTP/1.1]</cite></a>) and earlier, control data is sent as the first line of a message. In HTTP/2 (<a href="##HTTP2" id="rfc.xref.HTTP2.2"><cite title="HTTP/2">[HTTP/2]</cite></a>) and HTTP/3 (<a href="##HTTP3" id="rfc.xref.HTTP3.2"><cite title="HTTP/3">[HTTP/3]</cite></a>), control data is sent as pseudo-header fields with a reserved name prefix (e.g., ":authority").</p></div><div id="rfc.section.6.2.p.3"><p>Every HTTP message has a protocol version. Depending on the version in use, it might be identified within the message explicitly or inferred by the connection over which the message is received. Recipients use that version information to determine limitations or potential for later communication with that sender.</p></div><div id="rfc.section.6.2.p.4"><p>When a message is forwarded by an intermediary, the protocol version is updated to reflect the version used by that intermediary. The <a href="##field.via" class="smpl">Via</a> header field (<a href="##field.via" id="rfc.xref.field.via.1" title="Via">Section 7.6.3</a>) is used to communicate upstream protocol information within a forwarded message.</p></div><div id="rfc.section.6.2.p.5"><p>A client <em class="bcp14">SHOULD</em> send a request version equal to the highest version to which the client is conformant and whose major version is no higher than the highest version supported by the server, if this is known. A client <em class="bcp14">MUST NOT</em> send a version to which it is not conformant.</p></div><div id="rfc.section.6.2.p.6"><p>A client <em class="bcp14">MAY</em> send a lower request version if it is known that the server incorrectly implements the HTTP specification, but only after the client has attempted at least one normal request and determined from the response status code or header fields (e.g., <a href="##field.server" class="smpl">Server</a>) that the server improperly handles higher request versions.</p></div><div id="rfc.section.6.2.p.7"><p>A server <em class="bcp14">SHOULD</em> send a response version equal to the highest version to which the server is conformant that has a major version less than or equal to the one received in the request. A server <em class="bcp14">MUST NOT</em> send a version to which it is not conformant. A server can send a <a href="##status.505" class="smpl">505 (HTTP Version Not Supported)</a> response if it wishes, for any reason, to refuse service of the client's major protocol version.</p></div><div id="rfc.section.6.2.p.8"><p>A recipient that receives a message with a major version number that it implements and a minor version number higher than what it implements <em class="bcp14">SHOULD</em> process the message as if it were in the highest minor version within that major version to which the recipient is conformant. A recipient can assume that a message with a higher minor version, when sent to a recipient that has not yet indicated support for that higher version, is sufficiently backwards-compatible to be safely processed by any implementation of the same major version.</p></div></section><section id="header.fields"><h3 id="rfc.section.6.3"><a href="##rfc.section.6.3">6.3.</a>&nbsp;<a href="##header.fields">Header Fields</a></h3><div id="rfc.section.6.3.p.1"><p>Fields (<a href="##fields" title="Fields">Section 5</a>) that are sent or received before the content are referred to as "header fields" (or just "headers", colloquially).</p></div><div id="rfc.section.6.3.p.2"><p>The <dfn>header section</dfn> of a message consists of a sequence of header field lines. Each header field might modify or extend message semantics, describe the sender, define the content, or provide additional context.</p></div><div id="rfc.section.6.3.p.3"><aside><div id="rfc.section.6.3.p.3.1"><p><b>Note:</b> We refer to named fields specifically as a "header field" when they are only allowed to be sent in the header section.</p></div></aside></div></section><section id="content"><h3 id="rfc.section.6.4"><a href="##rfc.section.6.4">6.4.</a>&nbsp;<a href="##content">Content</a></h3><div id="rfc.section.6.4.p.1"><p>HTTP messages often transfer a complete or partial representation as the message <dfn>content</dfn>: a stream of octets sent after the header section, as delineated by the message framing.</p></div><div id="rfc.section.6.4.p.2"><p>This abstract definition of content reflects the data after it has been extracted from the message framing. For example, an HTTP/1.1 message body (<a href="https://httpwg.org/specs/rfc9112.html#message.body" title="Message Body">Section 6</a> of <a href="##HTTP11" id="rfc.xref.HTTP11.6"><cite title="HTTP/1.1">[HTTP/1.1]</cite></a>) might consist of a stream of data encoded with the chunked transfer coding — a sequence of data chunks, one zero-length chunk, and a trailer section — whereas the content of that same message includes only the data stream after the transfer coding has been decoded; it does not include the chunk lengths, chunked framing syntax, nor the trailer fields (<a href="##trailer.fields" title="Trailer Fields">Section 6.5</a>).</p></div><div id="rfc.section.6.4.p.3"><aside><div id="rfc.section.6.4.p.3.1"><p><b>Note:</b> Some field names have a "Content-" prefix. This is an informal convention; while some of these fields refer to the content of the message, as defined above, others are scoped to the selected representation (<a href="##representations" title="Representations">Section 3.2</a>). See the individual field's definition to disambiguate.</p></div></aside></div><section id="content.semantics"><h4 id="rfc.section.6.4.1"><a href="##rfc.section.6.4.1">6.4.1.</a>&nbsp;<a href="##content.semantics">Content Semantics</a></h4><div id="rfc.section.6.4.1.p.1"><p>The purpose of content in a request is defined by the method semantics (<a href="##methods" title="Methods">Section 9</a>).</p></div><div id="rfc.section.6.4.1.p.2"><p>For example, a representation in the content of a PUT request (<a href="##PUT" id="rfc.xref.PUT.1" title="PUT">Section 9.3.4</a>) represents the desired state of the <a href="##target.resource" class="smpl">target resource</a> after the request is successfully applied, whereas a representation in the content of a POST request (<a href="##POST" id="rfc.xref.POST.1" title="POST">Section 9.3.3</a>) represents information to be processed by the target resource.</p></div><div id="rfc.section.6.4.1.p.3"><p>In a response, the content's purpose is defined by the request method, response status code (<a href="##status.codes" title="Status Codes">Section 15</a>), and response fields describing that content. For example, the content of a <a href="##status.200" class="smpl">200 (OK)</a> response to GET (<a href="##GET" id="rfc.xref.GET.3" title="GET">Section 9.3.1</a>) represents the current state of the <a href="##target.resource" class="smpl">target resource</a>, as observed at the time of the message origination date (<a href="##field.date" id="rfc.xref.field.date.2" title="Date">Section 6.6.1</a>), whereas the content of the same status code in a response to POST might represent either the processing result or the new state of the target resource after applying the processing.</p></div><div id="rfc.section.6.4.1.p.4"><p>The content of a <a href="##status.206" class="smpl">206 (Partial Content)</a> response to GET contains either a single part of the selected representation or a multipart message body containing multiple parts of that representation, as described in <a href="##status.206" id="rfc.xref.status.206.1" title="206 Partial Content">Section 15.3.7</a>.</p></div><div id="rfc.section.6.4.1.p.5"><p>Response messages with an error status code usually contain content that represents the error condition, such that the content describes the error state and what steps are suggested for resolving it.</p></div><div id="rfc.section.6.4.1.p.6"><p>Responses to the HEAD request method (<a href="##HEAD" id="rfc.xref.HEAD.1" title="HEAD">Section 9.3.2</a>) never include content; the associated response header fields indicate only what their values would have been if the request method had been GET (<a href="##GET" id="rfc.xref.GET.4" title="GET">Section 9.3.1</a>).</p></div><div id="rfc.section.6.4.1.p.7"><p><a href="##status.2xx" class="smpl">2xx (Successful)</a> responses to a CONNECT request method (<a href="##CONNECT" id="rfc.xref.CONNECT.2" title="CONNECT">Section 9.3.6</a>) switch the connection to tunnel mode instead of having content.</p></div><div id="rfc.section.6.4.1.p.8"><p>All <a href="##status.1xx" class="smpl">1xx (Informational)</a>, <a href="##status.204" class="smpl">204 (No Content)</a>, and <a href="##status.304" class="smpl">304 (Not Modified)</a> responses do not include content.</p></div><div id="rfc.section.6.4.1.p.9"><p>All other responses do include content, although that content might be of zero length.</p></div></section><section id="identifying.content"><h4 id="rfc.section.6.4.2"><a href="##rfc.section.6.4.2">6.4.2.</a>&nbsp;<a href="##identifying.content">Identifying Content</a></h4><div id="rfc.section.6.4.2.p.1"><p>When a complete or partial representation is transferred as message content, it is often desirable for the sender to supply, or the recipient to determine, an identifier for a resource corresponding to that specific representation. For example, a client making a GET request on a resource for "the current weather report" might want an identifier specific to the content returned (e.g., "weather report for Laguna Beach at 20210720T1711"). This can be useful for sharing or bookmarking content from resources that are expected to have changing representations over time.</p></div><div id="rfc.section.6.4.2.p.2" class="avoidbreakafter"><p>For a request message:</p></div><div id="rfc.section.6.4.2.p.3"><ul><li>If the request has a <a href="##field.content-location" class="smpl">Content-Location</a> header field, then the sender asserts that the content is a representation of the resource identified by the Content-Location field value. However, such an assertion cannot be trusted unless it can be verified by other means (not defined by this specification). The information might still be useful for revision history links.</li><li>Otherwise, the content is unidentified by HTTP, but a more specific identifier might be supplied within the content itself.</li></ul></div><div id="rfc.section.6.4.2.p.4" class="avoidbreakafter"><p>For a response message, the following rules are applied in order until a match is found:</p></div><div id="rfc.section.6.4.2.p.5"><ol><li>If the request method is HEAD or the response status code is <a href="##status.204" class="smpl">204 (No Content)</a> or <a href="##status.304" class="smpl">304 (Not Modified)</a>, there is no content in the response.</li><li>If the request method is GET and the response status code is <a href="##status.200" class="smpl">200 (OK)</a>, the content is a representation of the <a href="##target.resource" class="smpl">target resource</a> (<a href="##target.resource" title="Determining the Target Resource">Section 7.1</a>).</li><li>If the request method is GET and the response status code is <a href="##status.203" class="smpl">203 (Non-Authoritative Information)</a>, the content is a potentially modified or enhanced representation of the <a href="##target.resource" class="smpl">target resource</a> as provided by an intermediary.</li><li>If the request method is GET and the response status code is <a href="##status.206" class="smpl">206 (Partial Content)</a>, the content is one or more parts of a representation of the target resource.</li><li>If the response has a <a href="##field.content-location" class="smpl">Content-Location</a> header field and its field value is a reference to the same URI as the target URI, the content is a representation of the target resource.</li><li>If the response has a <a href="##field.content-location" class="smpl">Content-Location</a> header field and its field value is a reference to a URI different from the target URI, then the sender asserts that the content is a representation of the resource identified by the Content-Location field value. However, such an assertion cannot be trusted unless it can be verified by other means (not defined by this specification).</li><li>Otherwise, the content is unidentified by HTTP, but a more specific identifier might be supplied within the content itself.</li></ol></div></section></section><section id="trailer.fields"><h3 id="rfc.section.6.5"><a href="##rfc.section.6.5">6.5.</a>&nbsp;<a href="##trailer.fields">Trailer Fields</a></h3><div id="rfc.section.6.5.p.1"><p>Fields (<a href="##fields" title="Fields">Section 5</a>) that are located within a <dfn>trailer section</dfn> are referred to as "trailer fields" (or just "trailers", colloquially). Trailer fields can be useful for supplying message integrity checks, digital signatures, delivery metrics, or post-processing status information.</p></div><div id="rfc.section.6.5.p.2"><p>Trailer fields ought to be processed and stored separately from the fields in the header section to avoid contradicting message semantics known at the time the header section was complete. The presence or absence of certain header fields might impact choices made for the routing or processing of the message as a whole before the trailers are received; those choices cannot be unmade by the later discovery of trailer fields.</p></div><section id="trailers.limitations"><h4 id="rfc.section.6.5.1"><a href="##rfc.section.6.5.1">6.5.1.</a>&nbsp;<a href="##trailers.limitations">Limitations on Use of Trailers</a></h4><div id="rfc.section.6.5.1.p.1"><p>A trailer section is only possible when supported by the version of HTTP in use and enabled by an explicit framing mechanism. For example, the chunked transfer coding in HTTP/1.1 allows a trailer section to be sent after the content (<a href="https://httpwg.org/specs/rfc9112.html#chunked.trailer.section" title="Chunked Trailer Section">Section 7.1.2</a> of <a href="##HTTP11" id="rfc.xref.HTTP11.7"><cite title="HTTP/1.1">[HTTP/1.1]</cite></a>).</p></div><div id="rfc.section.6.5.1.p.2"><p>Many fields cannot be processed outside the header section because their evaluation is necessary prior to receiving the content, such as those that describe message framing, routing, authentication, request modifiers, response controls, or content format. A sender <em class="bcp14">MUST NOT</em> generate a trailer field unless the sender knows the corresponding header field name's definition permits the field to be sent in trailers.</p></div><div id="rfc.section.6.5.1.p.3"><p>Trailer fields can be difficult to process by intermediaries that forward messages from one protocol version to another. If the entire message can be buffered in transit, some intermediaries could merge trailer fields into the header section (as appropriate) before it is forwarded. However, in most cases, the trailers are simply discarded. A recipient <em class="bcp14">MUST NOT</em> merge a trailer field into a header section unless the recipient understands the corresponding header field definition and that definition explicitly permits and defines how trailer field values can be safely merged.</p></div><div id="rfc.section.6.5.1.p.4"><p>The presence of the keyword "trailers" in the TE header field (<a href="##field.te" id="rfc.xref.field.te.1" title="TE">Section 10.1.4</a>) of a request indicates that the client is willing to accept trailer fields, on behalf of itself and any downstream clients. For requests from an intermediary, this implies that all downstream clients are willing to accept trailer fields in the forwarded response. Note that the presence of "trailers" does not mean that the client(s) will process any particular trailer field in the response; only that the trailer section(s) will not be dropped by any of the clients.</p></div><div id="rfc.section.6.5.1.p.5"><p>Because of the potential for trailer fields to be discarded in transit, a server <em class="bcp14">SHOULD NOT</em> generate trailer fields that it believes are necessary for the user agent to receive.</p></div></section><section id="trailers.processing"><h4 id="rfc.section.6.5.2"><a href="##rfc.section.6.5.2">6.5.2.</a>&nbsp;<a href="##trailers.processing">Processing Trailer Fields</a></h4><div id="rfc.section.6.5.2.p.1"><p>The "Trailer" header field (<a href="##field.trailer" id="rfc.xref.field.trailer.1" title="Trailer">Section 6.6.2</a>) can be sent to indicate fields likely to be sent in the trailer section, which allows recipients to prepare for their receipt before processing the content. For example, this could be useful if a field name indicates that a dynamic checksum should be calculated as the content is received and then immediately checked upon receipt of the trailer field value.</p></div><div id="rfc.section.6.5.2.p.2"><p>Like header fields, trailer fields with the same name are processed in the order received; multiple trailer field lines with the same name have the equivalent semantics as appending the multiple values as a list of members. Trailer fields that might be generated more than once during a message <em class="bcp14">MUST</em> be defined as a list-based field even if each member value is only processed once per field line received.</p></div><div id="rfc.section.6.5.2.p.3"><p>At the end of a message, a recipient <em class="bcp14">MAY</em> treat the set of received trailer fields as a data structure of name/value pairs, similar to (but separate from) the header fields. Additional processing expectations, if any, can be defined within the field specification for a field intended for use in trailers.</p></div></section></section><section id="message.metadata"><h3 id="rfc.section.6.6"><a href="##rfc.section.6.6">6.6.</a>&nbsp;<a href="##message.metadata">Message Metadata</a></h3><div id="rfc.section.6.6.p.1"><p>Fields that describe the message itself, such as when and how the message has been generated, can appear in both requests and responses.</p></div><section id="field.date"><h4 id="rfc.section.6.6.1"><a href="##rfc.section.6.6.1">6.6.1.</a>&nbsp;<a href="##field.date">Date</a></h4><div id="rfc.section.6.6.1.p.1"><p>The "Date" header field represents the date and time at which the message was originated, having the same semantics as the Origination Date Field (orig-date) defined in <a href="https://www.rfc-editor.org/rfc/rfc5322.html#section-3.6.1">Section 3.6.1</a> of <a href="##RFC5322" id="rfc.xref.RFC5322.4"><cite title="Internet Message Format">[RFC5322]</cite></a>. The field value is an HTTP-date, as defined in <a href="##http.date" title="Date/Time Formats">Section 5.6.7</a>.</p></div><div id="rfc.section.6.6.1.p.2"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.48"></span><span class="pln">  </span><a href="##field.date" class="smpl"><span class="typ">Date</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><a href="##http.date" class="smpl"><span class="typ">HTTP-date</span></a>
</pre></div><div id="rfc.section.6.6.1.p.3"><p>An example is</p></div><div id="rfc.section.6.6.1.p.4"><pre class="text">Date: Tue, 15 Nov 1994 08:12:31 GMT
</pre></div><div id="rfc.section.6.6.1.p.5"><p>A sender that generates a Date header field <em class="bcp14">SHOULD</em> generate its field value as the best available approximation of the date and time of message generation. In theory, the date ought to represent the moment just before generating the message content. In practice, a sender can generate the date value at any time during message origination.</p></div><div id="rfc.section.6.6.1.p.6"><p>An origin server with a clock (as defined in <a href="##http.date" title="Date/Time Formats">Section 5.6.7</a>) <em class="bcp14">MUST</em> generate a Date header field in all <a href="##status.2xx" class="smpl">2xx (Successful)</a>, <a href="##status.3xx" class="smpl">3xx (Redirection)</a>, and <a href="##status.4xx" class="smpl">4xx (Client Error)</a> responses, and <em class="bcp14">MAY</em> generate a Date header field in <a href="##status.1xx" class="smpl">1xx (Informational)</a> and <a href="##status.5xx" class="smpl">5xx (Server Error)</a> responses.</p></div><div id="rfc.section.6.6.1.p.7"><p>An origin server without a clock <em class="bcp14">MUST NOT</em> generate a Date header field.</p></div><div id="rfc.section.6.6.1.p.8"><p>A recipient with a clock that receives a response message without a Date header field <em class="bcp14">MUST</em> record the time it was received and append a corresponding Date header field to the message's header section if it is cached or forwarded downstream.</p></div><div id="rfc.section.6.6.1.p.9"><p>A recipient with a clock that receives a response with an invalid Date header field value <em class="bcp14">MAY</em> replace that value with the time that response was received.</p></div><div id="rfc.section.6.6.1.p.10"><p>A user agent <em class="bcp14">MAY</em> send a Date header field in a request, though generally will not do so unless it is believed to convey useful information to the server. For example, custom applications of HTTP might convey a Date if the server is expected to adjust its interpretation of the user's request based on differences between the user agent and server clocks.</p></div></section><section id="field.trailer"><h4 id="rfc.section.6.6.2"><a href="##rfc.section.6.6.2">6.6.2.</a>&nbsp;<a href="##field.trailer">Trailer</a></h4><div id="rfc.section.6.6.2.p.1"><p>The "Trailer" header field provides a list of field names that the sender anticipates sending as trailer fields within that message. This allows a recipient to prepare for receipt of the indicated metadata before it starts processing the content.</p></div><div id="rfc.section.6.6.2.p.2"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.49"></span><span id="rfc.iref.g.50"></span><span class="pln">  </span><a href="##field.trailer" class="smpl"><span class="typ">Trailer</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="pun">#</span><a href="##fields.names" class="smpl"><span class="typ">field-name</span></a>
</pre></div><div id="rfc.section.6.6.2.p.3"><p>For example, a sender might indicate that a signature will be computed as the content is being streamed and provide the final signature as a trailer field. This allows a recipient to perform the same check on the fly as it receives the content.</p></div><div id="rfc.section.6.6.2.p.4"><p>A sender that intends to generate one or more trailer fields in a message <em class="bcp14">SHOULD</em> generate a <a href="##field.trailer" class="smpl">Trailer</a> header field in the header section of that message to indicate which fields might be present in the trailers.</p></div><div id="rfc.section.6.6.2.p.5"><p>If an intermediary discards the trailer section in transit, the <a href="##field.trailer" class="smpl">Trailer</a> field could provide a hint of what metadata was lost, though there is no guarantee that a sender of Trailer will always follow through by sending the named fields.</p></div></section></section></section><section id="routing"><h2 id="rfc.section.7"><a href="##rfc.section.7">7.</a>&nbsp;<a href="##routing">Routing HTTP Messages</a></h2><div id="rfc.section.7.p.1"><p>HTTP request message routing is determined by each client based on the target resource, the client's proxy configuration, and establishment or reuse of an inbound connection. The corresponding response routing follows the same connection chain back to the client.</p></div><section id="target.resource"><h3 id="rfc.section.7.1"><a href="##rfc.section.7.1">7.1.</a>&nbsp;<a href="##target.resource">Determining the Target Resource</a></h3><div id="rfc.section.7.1.p.1"><p>Although HTTP is used in a wide variety of applications, most clients rely on the same resource identification mechanism and configuration techniques as general-purpose Web browsers. Even when communication options are hard-coded in a client's configuration, we can think of their combined effect as a URI reference (<a href="##uri.references" title="URI References">Section 4.1</a>).</p></div><div id="rfc.section.7.1.p.2"><p>A URI reference is resolved to its absolute form in order to obtain the <dfn>target URI</dfn>. The target URI excludes the reference's fragment component, if any, since fragment identifiers are reserved for client-side processing (<a href="##URI" id="rfc.xref.URI.26"><cite title="Uniform Resource Identifier (URI): Generic Syntax">[URI]</cite></a>, <a href="https://www.rfc-editor.org/rfc/rfc3986.html#section-3.5">Section 3.5</a>).</p></div><div id="rfc.section.7.1.p.3"><p>To perform an action on a <dfn>target resource</dfn>, the client sends a request message containing enough components of its parsed target URI to enable recipients to identify that same resource. For historical reasons, the parsed target URI components, collectively referred to as the <dfn>request target</dfn>, are sent within the message control data and the <a href="##field.host" class="smpl">Host</a> header field (<a href="##field.host" id="rfc.xref.field.host.2" title="Host and :authority">Section 7.2</a>).</p></div><div id="rfc.section.7.1.p.4" class="avoidbreakafter"><p>There are two unusual cases for which the request target components are in a method-specific form:</p></div><div id="rfc.section.7.1.p.5"><ul><li>For CONNECT (<a href="##CONNECT" id="rfc.xref.CONNECT.3" title="CONNECT">Section 9.3.6</a>), the request target is the host name and port number of the tunnel destination, separated by a colon.</li><li>For OPTIONS (<a href="##OPTIONS" id="rfc.xref.OPTIONS.1" title="OPTIONS">Section 9.3.7</a>), the request target can be a single asterisk ("*").</li></ul></div><div id="rfc.section.7.1.p.6"><p>See the respective method definitions for details. These forms <em class="bcp14">MUST NOT</em> be used with other methods.</p></div><div id="rfc.section.7.1.p.7"><p>Upon receipt of a client's request, a server reconstructs the target URI from the received components in accordance with their local configuration and incoming connection context. This reconstruction is specific to each major protocol version. For example, <a href="https://httpwg.org/specs/rfc9112.html#reconstructing.target.uri" title="Reconstructing the Target URI">Section 3.3</a> of <a href="##HTTP11" id="rfc.xref.HTTP11.8"><cite title="HTTP/1.1">[HTTP/1.1]</cite></a> defines how a server determines the target URI of an HTTP/1.1 request.</p></div><div id="rfc.section.7.1.p.8"><aside id="effective.request.uri"><div id="rfc.section.7.1.p.8.1"><p><span id="rfc.iref.e.1"></span><b>Note:</b> Previous specifications defined the recomposed target URI as a distinct concept, the <dfn>effective request URI</dfn>.</p></div></aside></div></section><section id="field.host"><h3 id="rfc.section.7.2"><a href="##rfc.section.7.2">7.2.</a>&nbsp;<a href="##field.host">Host and :authority</a></h3><div id="rfc.section.7.2.p.1"><p>The "Host" header field in a request provides the host and port information from the target URI, enabling the origin server to distinguish among resources while servicing requests for multiple host names.</p></div><div id="rfc.section.7.2.p.2"><p>In HTTP/2 <a href="##HTTP2" id="rfc.xref.HTTP2.3"><cite title="HTTP/2">[HTTP/2]</cite></a> and HTTP/3 <a href="##HTTP3" id="rfc.xref.HTTP3.3"><cite title="HTTP/3">[HTTP/3]</cite></a>, the Host header field is, in some cases, supplanted by the ":authority" pseudo-header field of a request's control data.</p></div><div id="rfc.section.7.2.p.3"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.51"></span><span class="pln">  </span><a href="##field.host" class="smpl"><span class="typ">Host</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><a href="##uri.references" class="smpl"><span class="typ">uri-host</span></a><span class="pln"> </span><span class="pun">[</span><span class="pln"> </span><span class="str">":"</span><span class="pln"> </span><a href="##uri.references" class="smpl"><span class="typ">port</span></a><span class="pln"> </span><span class="pun">]</span><span class="pln"> </span><span class="com">; </span><a href="##uri" title="Identifiers in HTTP"><span class="com">Section 4</span></a>
</pre></div><div id="rfc.section.7.2.p.4"><p>The target URI's authority information is critical for handling a request. A user agent <em class="bcp14">MUST</em> generate a Host header field in a request unless it sends that information as an ":authority" pseudo-header field. A user agent that sends Host <em class="bcp14">SHOULD</em> send it as the first field in the header section of a request.</p></div><div id="rfc.section.7.2.p.5" class="avoidbreakafter"><p>For example, a GET request to the origin server for &lt;http://www.example.org/pub/WWW/&gt; would begin with:</p></div><div id="rfc.section.7.2.p.6"><pre class="text">GET /pub/WWW/ HTTP/1.1
Host: www.example.org
</pre></div><div id="rfc.section.7.2.p.7"><p>Since the host and port information acts as an application-level routing mechanism, it is a frequent target for malware seeking to poison a shared cache or redirect a request to an unintended server. An interception proxy is particularly vulnerable if it relies on the host and port information for redirecting requests to internal servers, or for use as a cache key in a shared cache, without first verifying that the intercepted connection is targeting a valid IP address for that host.</p></div></section><section id="routing.inbound"><h3 id="rfc.section.7.3"><a href="##rfc.section.7.3">7.3.</a>&nbsp;<a href="##routing.inbound">Routing Inbound Requests</a></h3><div id="rfc.section.7.3.p.1"><p>Once the target URI and its origin are determined, a client decides whether a network request is necessary to accomplish the desired semantics and, if so, where that request is to be directed.</p></div><section id="routing.cache"><h4 id="rfc.section.7.3.1"><a href="##rfc.section.7.3.1">7.3.1.</a>&nbsp;<a href="##routing.cache">To a Cache</a></h4><div id="rfc.section.7.3.1.p.1"><p>If the client has a cache <a href="##CACHING" id="rfc.xref.CACHING.7"><cite title="HTTP Caching">[CACHING]</cite></a> and the request can be satisfied by it, then the request is usually directed there first.</p></div></section><section id="routing.proxy"><h4 id="rfc.section.7.3.2"><a href="##rfc.section.7.3.2">7.3.2.</a>&nbsp;<a href="##routing.proxy">To a Proxy</a></h4><div id="rfc.section.7.3.2.p.1"><p>If the request is not satisfied by a cache, then a typical client will check its configuration to determine whether a proxy is to be used to satisfy the request. Proxy configuration is implementation-dependent, but is often based on URI prefix matching, selective authority matching, or both, and the proxy itself is usually identified by an "http" or "https" URI.</p></div><div id="rfc.section.7.3.2.p.2"><p>If an "http" or "https" proxy is applicable, the client connects inbound by establishing (or reusing) a connection to that proxy and then sending it an HTTP request message containing a request target that matches the client's target URI.</p></div></section><section id="routing.origin"><h4 id="rfc.section.7.3.3"><a href="##rfc.section.7.3.3">7.3.3.</a>&nbsp;<a href="##routing.origin">To the Origin</a></h4><div id="rfc.section.7.3.3.p.1"><p>If no proxy is applicable, a typical client will invoke a handler routine (specific to the target URI's scheme) to obtain access to the identified resource. How that is accomplished is dependent on the target URI scheme and defined by its associated specification.</p></div><div id="rfc.section.7.3.3.p.2"><p><a href="##http.origin" title="http Origins">Section 4.3.2</a> defines how to obtain access to an "http" resource by establishing (or reusing) an inbound connection to the identified origin server and then sending it an HTTP request message containing a request target that matches the client's target URI.</p></div><div id="rfc.section.7.3.3.p.3"><p><a href="##https.origin" title="https Origins">Section 4.3.3</a> defines how to obtain access to an "https" resource by establishing (or reusing) an inbound secured connection to an origin server that is authoritative for the identified origin and then sending it an HTTP request message containing a request target that matches the client's target URI.</p></div></section></section><section id="routing.reject"><h3 id="rfc.section.7.4"><a href="##rfc.section.7.4">7.4.</a>&nbsp;<a href="##routing.reject">Rejecting Misdirected Requests</a></h3><div id="rfc.section.7.4.p.1"><p>Once a request is received by a server and parsed sufficiently to determine its target URI, the server decides whether to process the request itself, forward the request to another server, redirect the client to a different resource, respond with an error, or drop the connection. This decision can be influenced by anything about the request or connection context, but is specifically directed at whether the server has been configured to process requests for that target URI and whether the connection context is appropriate for that request.</p></div><div id="rfc.section.7.4.p.2"><p>For example, a request might have been misdirected, deliberately or accidentally, such that the information within a received <a href="##field.host" class="smpl">Host</a> header field differs from the connection's host or port. If the connection is from a trusted gateway, such inconsistency might be expected; otherwise, it might indicate an attempt to bypass security filters, trick the server into delivering non-public content, or poison a cache. See <a href="##security.considerations" title="Security Considerations">Section 17</a> for security considerations regarding message routing.</p></div><div id="rfc.section.7.4.p.3"><p>Unless the connection is from a trusted gateway, an origin server <em class="bcp14">MUST</em> reject a request if any scheme-specific requirements for the target URI are not met. In particular, a request for an "https" resource <em class="bcp14">MUST</em> be rejected unless it has been received over a connection that has been secured via a certificate valid for that target URI's origin, as defined by <a href="##https.uri" title="https URI Scheme">Section 4.2.2</a>.</p></div><div id="rfc.section.7.4.p.4"><p>The <a href="##status.421" class="smpl">421 (Misdirected Request)</a> status code in a response indicates that the origin server has rejected the request because it appears to have been misdirected (<a href="##status.421" id="rfc.xref.status.421.1" title="421 Misdirected Request">Section 15.5.20</a>).</p></div></section><section id="response.correlation"><h3 id="rfc.section.7.5"><a href="##rfc.section.7.5">7.5.</a>&nbsp;<a href="##response.correlation">Response Correlation</a></h3><div id="rfc.section.7.5.p.1"><p>A connection might be used for multiple request/response exchanges. The mechanism used to correlate between request and response messages is version dependent; some versions of HTTP use implicit ordering of messages, while others use an explicit identifier.</p></div><div id="rfc.section.7.5.p.2"><p>All responses, regardless of the status code (including <a href="##final.interim" class="smpl">interim</a> responses) can be sent at any time after a request is received, even if the request is not yet complete. A response can complete before its corresponding request is complete (<a href="##message.framing" title="Framing and Completeness">Section 6.1</a>). Likewise, clients are not expected to wait any specific amount of time for a response. Clients (including intermediaries) might abandon a request if the response is not received within a reasonable period of time.</p></div><div id="rfc.section.7.5.p.3"><p>A client that receives a response while it is still sending the associated request <em class="bcp14">SHOULD</em> continue sending that request unless it receives an explicit indication to the contrary (see, e.g., <a href="https://httpwg.org/specs/rfc9112.html#persistent.failures" title="Failures and Timeouts">Section 9.5</a> of <a href="##HTTP11" id="rfc.xref.HTTP11.9"><cite title="HTTP/1.1">[HTTP/1.1]</cite></a> and <a href="https://www.rfc-editor.org/rfc/rfc9113.html#section-6.4">Section 6.4</a> of <a href="##HTTP2" id="rfc.xref.HTTP2.4"><cite title="HTTP/2">[HTTP/2]</cite></a>).</p></div></section><section id="message.forwarding"><h3 id="rfc.section.7.6"><a href="##rfc.section.7.6">7.6.</a>&nbsp;<a href="##message.forwarding">Message Forwarding</a></h3><div id="rfc.section.7.6.p.1"><p>As described in <a href="##intermediaries" title="Intermediaries">Section 3.7</a>, intermediaries can serve a variety of roles in the processing of HTTP requests and responses. Some intermediaries are used to improve performance or availability. Others are used for access control or to filter content. Since an HTTP stream has characteristics similar to a pipe-and-filter architecture, there are no inherent limits to the extent an intermediary can enhance (or interfere) with either direction of the stream.</p></div><div id="rfc.section.7.6.p.2"><p>Intermediaries are expected to forward messages even when protocol elements are not recognized (e.g., new methods, status codes, or field names) since that preserves extensibility for downstream recipients.</p></div><div id="rfc.section.7.6.p.3"><p>An intermediary not acting as a tunnel <em class="bcp14">MUST</em> implement the <a href="##field.connection" class="smpl">Connection</a> header field, as specified in <a href="##field.connection" id="rfc.xref.field.connection.2" title="Connection">Section 7.6.1</a>, and exclude fields from being forwarded that are only intended for the incoming connection.</p></div><div id="rfc.section.7.6.p.4"><p>An intermediary <em class="bcp14">MUST NOT</em> forward a message to itself unless it is protected from an infinite request loop. In general, an intermediary ought to recognize its own server names, including any aliases, local variations, or literal IP addresses, and respond to such requests directly.</p></div><div id="rfc.section.7.6.p.5"><p>An HTTP message can be parsed as a stream for incremental processing or forwarding downstream. However, senders and recipients cannot rely on incremental delivery of partial messages, since some implementations will buffer or delay message forwarding for the sake of network efficiency, security checks, or content transformations.</p></div><section id="field.connection"><h4 id="rfc.section.7.6.1"><a href="##rfc.section.7.6.1">7.6.1.</a>&nbsp;<a href="##field.connection">Connection</a></h4><div id="rfc.section.7.6.1.p.1"><p>The "Connection" header field allows the sender to list desired control options for the current connection.</p></div><div id="rfc.section.7.6.1.p.2"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.52"></span><span id="rfc.iref.g.53"></span><span class="pln">  </span><a href="##field.connection" class="smpl"><span class="typ">Connection</span></a><span class="pln">        </span><span class="pun">=</span><span class="pln"> </span><span class="pun">#</span><a href="##field.connection" class="smpl"><span class="typ">connection-option</span></a><span class="pln">
  </span><a href="##field.connection" class="smpl"><span class="typ">connection-option</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><a href="##rule.token.separators" class="smpl"><span class="typ">token</span></a>
</pre></div><div id="rfc.section.7.6.1.p.3"><p>Connection options are case-insensitive.</p></div><div id="rfc.section.7.6.1.p.4"><p>When a field aside from Connection is used to supply control information for or about the current connection, the sender <em class="bcp14">MUST</em> list the corresponding field name within the Connection header field. Note that some versions of HTTP prohibit the use of fields for such information, and therefore do not allow the Connection field.</p></div><div id="rfc.section.7.6.1.p.5"><p>Intermediaries <em class="bcp14">MUST</em> parse a received Connection header field before a message is forwarded and, for each connection-option in this field, remove any header or trailer field(s) from the message with the same name as the connection-option, and then remove the Connection header field itself (or replace it with the intermediary's own control options for the forwarded message).</p></div><div id="rfc.section.7.6.1.p.6"><p>Hence, the Connection header field provides a declarative way of distinguishing fields that are only intended for the immediate recipient ("hop-by-hop") from those fields that are intended for all recipients on the chain ("end-to-end"), enabling the message to be self-descriptive and allowing future connection-specific extensions to be deployed without fear that they will be blindly forwarded by older intermediaries.</p></div><div id="rfc.section.7.6.1.p.7" class="avoidbreakafter"><p>Furthermore, intermediaries <em class="bcp14">SHOULD</em> remove or replace fields that are known to require removal before forwarding, whether or not they appear as a connection-option, after applying those fields' semantics. This includes but is not limited to:</p></div><div id="rfc.section.7.6.1.p.8"><ul><li>Proxy-Connection (<a href="https://httpwg.org/specs/rfc9112.html#compatibility.with.http.1.0.persistent.connections" title="Keep-Alive Connections">Appendix C.2.2</a> of <a href="##HTTP11" id="rfc.xref.HTTP11.10"><cite title="HTTP/1.1">[HTTP/1.1]</cite></a>)</li><li>Keep-Alive (<a href="https://www.rfc-editor.org/rfc/rfc2068.html#section-19.7.1">Section 19.7.1</a> of <a href="##RFC2068" id="rfc.xref.RFC2068.2"><cite title="Hypertext Transfer Protocol -- HTTP/1.1">[RFC2068]</cite></a>)</li><li>TE (<a href="##field.te" id="rfc.xref.field.te.2" title="TE">Section 10.1.4</a>)</li><li>Transfer-Encoding (<a href="https://httpwg.org/specs/rfc9112.html#field.transfer-encoding" title="Transfer-Encoding">Section 6.1</a> of <a href="##HTTP11" id="rfc.xref.HTTP11.11"><cite title="HTTP/1.1">[HTTP/1.1]</cite></a>)</li><li>Upgrade (<a href="##field.upgrade" id="rfc.xref.field.upgrade.2" title="Upgrade">Section 7.8</a>)</li></ul></div><div id="rfc.section.7.6.1.p.9"><p>A sender <em class="bcp14">MUST NOT</em> send a connection option corresponding to a field that is intended for all recipients of the content. For example, <a href="https://httpwg.org/specs/rfc9111.html#field.cache-control" class="smpl">Cache-Control</a> is never appropriate as a connection option (<a href="https://httpwg.org/specs/rfc9111.html#field.cache-control" title="Cache-Control">Section 5.2</a> of <a href="##CACHING" id="rfc.xref.CACHING.8"><cite title="HTTP Caching">[CACHING]</cite></a>).</p></div><div id="rfc.section.7.6.1.p.10"><p>Connection options do not always correspond to a field present in the message, since a connection-specific field might not be needed if there are no parameters associated with a connection option. In contrast, a connection-specific field received without a corresponding connection option usually indicates that the field has been improperly forwarded by an intermediary and ought to be ignored by the recipient.</p></div><div id="rfc.section.7.6.1.p.11"><p>When defining a new connection option that does not correspond to a field, specification authors ought to reserve the corresponding field name anyway in order to avoid later collisions. Such reserved field names are registered in the "Hypertext Transfer Protocol (HTTP) Field Name Registry" (<a href="##fields.registry" title="Field Name Registry">Section 16.3.1</a>).</p></div></section><section id="field.max-forwards"><h4 id="rfc.section.7.6.2"><a href="##rfc.section.7.6.2">7.6.2.</a>&nbsp;<a href="##field.max-forwards">Max-Forwards</a></h4><div id="rfc.section.7.6.2.p.1"><p>The "Max-Forwards" header field provides a mechanism with the TRACE (<a href="##TRACE" id="rfc.xref.TRACE.1" title="TRACE">Section 9.3.8</a>) and OPTIONS (<a href="##OPTIONS" id="rfc.xref.OPTIONS.2" title="OPTIONS">Section 9.3.7</a>) request methods to limit the number of times that the request is forwarded by proxies. This can be useful when the client is attempting to trace a request that appears to be failing or looping mid-chain.</p></div><div id="rfc.section.7.6.2.p.2"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.54"></span><span class="pln">  </span><a href="##field.max-forwards" class="smpl"><span class="typ">Max-Forwards</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> 1</span><span class="pun">*</span><a href="##core.rules" class="smpl"><span class="typ">DIGIT</span></a>
</pre></div><div id="rfc.section.7.6.2.p.3"><p>The Max-Forwards value is a decimal integer indicating the remaining number of times this request message can be forwarded.</p></div><div id="rfc.section.7.6.2.p.4"><p>Each intermediary that receives a TRACE or OPTIONS request containing a Max-Forwards header field <em class="bcp14">MUST</em> check and update its value prior to forwarding the request. If the received value is zero (0), the intermediary <em class="bcp14">MUST NOT</em> forward the request; instead, the intermediary <em class="bcp14">MUST</em> respond as the final recipient. If the received Max-Forwards value is greater than zero, the intermediary <em class="bcp14">MUST</em> generate an updated Max-Forwards field in the forwarded message with a field value that is the lesser of a) the received value decremented by one (1) or b) the recipient's maximum supported value for Max-Forwards.</p></div><div id="rfc.section.7.6.2.p.5"><p>A recipient <em class="bcp14">MAY</em> ignore a Max-Forwards header field received with any other request methods.</p></div></section><section id="field.via"><h4 id="rfc.section.7.6.3"><a href="##rfc.section.7.6.3">7.6.3.</a>&nbsp;<a href="##field.via">Via</a></h4><div id="rfc.section.7.6.3.p.1"><p>The "Via" header field indicates the presence of intermediate protocols and recipients between the user agent and the server (on requests) or between the origin server and the client (on responses), similar to the "Received" header field in email (<a href="https://www.rfc-editor.org/rfc/rfc5322.html#section-3.6.7">Section 3.6.7</a> of <a href="##RFC5322" id="rfc.xref.RFC5322.5"><cite title="Internet Message Format">[RFC5322]</cite></a>). Via can be used for tracking message forwards, avoiding request loops, and identifying the protocol capabilities of senders along the request/response chain.</p></div><div id="rfc.section.7.6.3.p.2"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.55"></span><span id="rfc.iref.g.56"></span><span id="rfc.iref.g.57"></span><span id="rfc.iref.g.58"></span><span id="rfc.iref.g.59"></span><span id="rfc.iref.g.60"></span><span class="pln">  </span><a href="##field.via" class="smpl"><span class="typ">Via</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="pun">#(</span><span class="pln"> </span><a href="##field.via" class="smpl"><span class="typ">received-protocol</span></a><span class="pln"> </span><a href="##whitespace" class="smpl"><span class="typ">RWS</span></a><span class="pln"> </span><a href="##field.via" class="smpl"><span class="typ">received-by</span></a><span class="pln"> </span><span class="pun">[</span><span class="pln"> </span><a href="##whitespace" class="smpl"><span class="typ">RWS</span></a><span class="pln"> </span><a href="##rule.comment" class="smpl"><span class="typ">comment</span></a><span class="pln"> </span><span class="pun">]</span><span class="pln"> </span><span class="pun">)</span><span class="pln">

  </span><a href="##field.via" class="smpl"><span class="typ">received-protocol</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="pun">[</span><span class="pln"> </span><a href="##field.upgrade" class="smpl"><span class="typ">protocol-name</span></a><span class="pln"> </span><span class="str">"/"</span><span class="pln"> </span><span class="pun">]</span><span class="pln"> </span><a href="##field.upgrade" class="smpl"><span class="typ">protocol-version</span></a><span class="pln">
                    </span><span class="com">; see </span><a href="##field.upgrade" id="rfc.xref.field.upgrade.3" title="Upgrade"><span class="com">Section 7.8</span></a><span class="pln">
  </span><a href="##field.via" class="smpl"><span class="typ">received-by</span></a><span class="pln">       </span><span class="pun">=</span><span class="pln"> </span><a href="##field.via" class="smpl"><span class="typ">pseudonym</span></a><span class="pln"> </span><span class="pun">[</span><span class="pln"> </span><span class="str">":"</span><span class="pln"> </span><a href="##uri.references" class="smpl"><span class="typ">port</span></a><span class="pln"> </span><span class="pun">]</span><span class="pln">
  </span><a href="##field.via" class="smpl"><span class="typ">pseudonym</span></a><span class="pln">         </span><span class="pun">=</span><span class="pln"> </span><a href="##rule.token.separators" class="smpl"><span class="typ">token</span></a>
</pre></div><div id="rfc.section.7.6.3.p.3"><p>Each member of the Via field value represents a proxy or gateway that has forwarded the message. Each intermediary appends its own information about how the message was received, such that the end result is ordered according to the sequence of forwarding recipients.</p></div><div id="rfc.section.7.6.3.p.4"><p>A proxy <em class="bcp14">MUST</em> send an appropriate Via header field, as described below, in each message that it forwards. An HTTP-to-HTTP gateway <em class="bcp14">MUST</em> send an appropriate Via header field in each inbound request message and <em class="bcp14">MAY</em> send a Via header field in forwarded response messages.</p></div><div id="rfc.section.7.6.3.p.5"><p>For each intermediary, the received-protocol indicates the protocol and protocol version used by the upstream sender of the message. Hence, the Via field value records the advertised protocol capabilities of the request/response chain such that they remain visible to downstream recipients; this can be useful for determining what backwards-incompatible features might be safe to use in response, or within a later request, as described in <a href="##protocol.version" title="Protocol Version">Section 2.5</a>. For brevity, the protocol-name is omitted when the received protocol is HTTP.</p></div><div id="rfc.section.7.6.3.p.6"><p>The received-by portion is normally the host and optional port number of a recipient server or client that subsequently forwarded the message. However, if the real host is considered to be sensitive information, a sender <em class="bcp14">MAY</em> replace it with a pseudonym. If a port is not provided, a recipient <em class="bcp14">MAY</em> interpret that as meaning it was received on the default port, if any, for the received-protocol.</p></div><div id="rfc.section.7.6.3.p.7"><p>A sender <em class="bcp14">MAY</em> generate comments to identify the software of each recipient, analogous to the <a href="##field.user-agent" class="smpl">User-Agent</a> and <a href="##field.server" class="smpl">Server</a> header fields. However, comments in Via are optional, and a recipient <em class="bcp14">MAY</em> remove them prior to forwarding the message.</p></div><div id="rfc.section.7.6.3.p.8" class="avoidbreakafter"><p>For example, a request message could be sent from an HTTP/1.0 user agent to an internal proxy code-named "fred", which uses HTTP/1.1 to forward the request to a public proxy at p.example.net, which completes the request by forwarding it to the origin server at www.example.com. The request received by www.example.com would then have the following Via header field:</p></div><div id="rfc.section.7.6.3.p.9"><pre class="text">Via: 1.0 fred, 1.1 p.example.net
</pre></div><div id="rfc.section.7.6.3.p.10"><p>An intermediary used as a portal through a network firewall <em class="bcp14">SHOULD NOT</em> forward the names and ports of hosts within the firewall region unless it is explicitly enabled to do so. If not enabled, such an intermediary <em class="bcp14">SHOULD</em> replace each received-by host of any host behind the firewall by an appropriate pseudonym for that host.</p></div><div id="rfc.section.7.6.3.p.11"><p>An intermediary <em class="bcp14">MAY</em> combine an ordered subsequence of Via header field list members into a single member if the entries have identical received-protocol values. For example,</p></div><div id="rfc.section.7.6.3.p.12"><pre class="text">Via: 1.0 ricky, 1.1 ethel, 1.1 fred, 1.0 lucy
</pre></div><div id="rfc.section.7.6.3.p.13"><p>could be collapsed to</p></div><div id="rfc.section.7.6.3.p.14"><pre class="text">Via: 1.0 ricky, 1.1 mertz, 1.0 lucy
</pre></div><div id="rfc.section.7.6.3.p.15"><p>A sender <em class="bcp14">SHOULD NOT</em> combine multiple list members unless they are all under the same organizational control and the hosts have already been replaced by pseudonyms. A sender <em class="bcp14">MUST NOT</em> combine members that have different received-protocol values.</p></div></section></section><section id="message.transformations"><h3 id="rfc.section.7.7"><a href="##rfc.section.7.7">7.7.</a>&nbsp;<a href="##message.transformations">Message Transformations</a></h3><div id="rfc.section.7.7.p.1"><p>Some intermediaries include features for transforming messages and their content. A proxy might, for example, convert between image formats in order to save cache space or to reduce the amount of traffic on a slow link. However, operational problems might occur when these transformations are applied to content intended for critical applications, such as medical imaging or scientific data analysis, particularly when integrity checks or digital signatures are used to ensure that the content received is identical to the original.</p></div><div id="rfc.section.7.7.p.2"><p>An HTTP-to-HTTP proxy is called a <dfn>transforming proxy</dfn> if it is designed or configured to modify messages in a semantically meaningful way (i.e., modifications, beyond those required by normal HTTP processing, that change the message in a way that would be significant to the original sender or potentially significant to downstream recipients). For example, a transforming proxy might be acting as a shared annotation server (modifying responses to include references to a local annotation database), a malware filter, a format transcoder, or a privacy filter. Such transformations are presumed to be desired by whichever client (or client organization) chose the proxy.</p></div><div id="rfc.section.7.7.p.3"><p>If a proxy receives a target URI with a host name that is not a fully qualified domain name, it <em class="bcp14">MAY</em> add its own domain to the host name it received when forwarding the request. A proxy <em class="bcp14">MUST NOT</em> change the host name if the target URI contains a fully qualified domain name.</p></div><div id="rfc.section.7.7.p.4"><p>A proxy <em class="bcp14">MUST NOT</em> modify the "absolute-path" and "query" parts of the received target URI when forwarding it to the next inbound server except as required by that forwarding protocol. For example, a proxy forwarding a request to an origin server via HTTP/1.1 will replace an empty path with "/" (<a href="https://httpwg.org/specs/rfc9112.html#origin-form" title="origin-form">Section 3.2.1</a> of <a href="##HTTP11" id="rfc.xref.HTTP11.12"><cite title="HTTP/1.1">[HTTP/1.1]</cite></a>) or "*" (<a href="https://httpwg.org/specs/rfc9112.html#asterisk-form" title="asterisk-form">Section 3.2.4</a> of <a href="##HTTP11" id="rfc.xref.HTTP11.13"><cite title="HTTP/1.1">[HTTP/1.1]</cite></a>), depending on the request method.</p></div><div id="rfc.section.7.7.p.5"><p>A proxy <em class="bcp14">MUST NOT</em> transform the content (<a href="##content" title="Content">Section 6.4</a>) of a response message that contains a no-transform cache directive (<a href="https://httpwg.org/specs/rfc9111.html#cache-response-directive.no-transform" title="no-transform">Section 5.2.2.6</a> of <a href="##CACHING" id="rfc.xref.CACHING.9"><cite title="HTTP Caching">[CACHING]</cite></a>). Note that this does not apply to message transformations that do not change the content, such as the addition or removal of transfer codings (<a href="https://httpwg.org/specs/rfc9112.html#transfer.codings" title="Transfer Codings">Section 7</a> of <a href="##HTTP11" id="rfc.xref.HTTP11.14"><cite title="HTTP/1.1">[HTTP/1.1]</cite></a>).</p></div><div id="rfc.section.7.7.p.6"><p>A proxy <em class="bcp14">MAY</em> transform the content of a message that does not contain a no-transform cache directive. A proxy that transforms the content of a <a href="##status.200" class="smpl">200 (OK)</a> response can inform downstream recipients that a transformation has been applied by changing the response status code to <a href="##status.203" class="smpl">203 (Non-Authoritative Information)</a> (<a href="##status.203" id="rfc.xref.status.203.1" title="203 Non-Authoritative Information">Section 15.3.4</a>).</p></div><div id="rfc.section.7.7.p.7"><p>A proxy <em class="bcp14">SHOULD NOT</em> modify header fields that provide information about the endpoints of the communication chain, the resource state, or the <a href="##selected.representation" class="smpl">selected representation</a> (other than the content) unless the field's definition specifically allows such modification or the modification is deemed necessary for privacy or security.</p></div></section><section id="field.upgrade"><h3 id="rfc.section.7.8"><a href="##rfc.section.7.8">7.8.</a>&nbsp;<a href="##field.upgrade">Upgrade</a></h3><div id="rfc.section.7.8.p.1"><p>The "Upgrade" header field is intended to provide a simple mechanism for transitioning from HTTP/1.1 to some other protocol on the same connection.</p></div><div id="rfc.section.7.8.p.2"><p>A client <em class="bcp14">MAY</em> send a list of protocol names in the Upgrade header field of a request to invite the server to switch to one or more of the named protocols, in order of descending preference, before sending the final response. A server <em class="bcp14">MAY</em> ignore a received Upgrade header field if it wishes to continue using the current protocol on that connection. Upgrade cannot be used to insist on a protocol change.</p></div><div id="rfc.section.7.8.p.3"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.61"></span><span class="pln">  </span><a href="##field.upgrade" class="smpl"><span class="typ">Upgrade</span></a><span class="pln">          </span><span class="pun">=</span><span class="pln"> </span><span class="pun">#</span><a href="##field.upgrade" class="smpl"><span class="typ">protocol</span></a><span class="pln">

  </span><a href="##field.upgrade" class="smpl"><span class="typ">protocol</span></a><span class="pln">         </span><span class="pun">=</span><span class="pln"> </span><a href="##field.upgrade" class="smpl"><span class="typ">protocol-name</span></a><span class="pln"> </span><span class="pun">[</span><span class="str">"/"</span><span class="pln"> </span><a href="##field.upgrade" class="smpl"><span class="typ">protocol-version</span></a><span class="pun">]</span><span class="pln">
  </span><a href="##field.upgrade" class="smpl"><span class="typ">protocol-name</span></a><span class="pln">    </span><span class="pun">=</span><span class="pln"> </span><a href="##rule.token.separators" class="smpl"><span class="typ">token</span></a><span class="pln">
  </span><a href="##field.upgrade" class="smpl"><span class="typ">protocol-version</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><a href="##rule.token.separators" class="smpl"><span class="typ">token</span></a>
</pre></div><div id="rfc.section.7.8.p.4"><p>Although protocol names are registered with a preferred case, recipients <em class="bcp14">SHOULD</em> use case-insensitive comparison when matching each protocol-name to supported protocols.</p></div><div id="rfc.section.7.8.p.5"><p>A server that sends a <a href="##status.101" class="smpl">101 (Switching Protocols)</a> response <em class="bcp14">MUST</em> send an Upgrade header field to indicate the new protocol(s) to which the connection is being switched; if multiple protocol layers are being switched, the sender <em class="bcp14">MUST</em> list the protocols in layer-ascending order. A server <em class="bcp14">MUST NOT</em> switch to a protocol that was not indicated by the client in the corresponding request's Upgrade header field. A server <em class="bcp14">MAY</em> choose to ignore the order of preference indicated by the client and select the new protocol(s) based on other factors, such as the nature of the request or the current load on the server.</p></div><div id="rfc.section.7.8.p.6"><p>A server that sends a <a href="##status.426" class="smpl">426 (Upgrade Required)</a> response <em class="bcp14">MUST</em> send an Upgrade header field to indicate the acceptable protocols, in order of descending preference.</p></div><div id="rfc.section.7.8.p.7"><p>A server <em class="bcp14">MAY</em> send an Upgrade header field in any other response to advertise that it implements support for upgrading to the listed protocols, in order of descending preference, when appropriate for a future request.</p></div><div id="rfc.section.7.8.p.8" class="avoidbreakafter"><p>The following is a hypothetical example sent by a client:</p></div><div id="rfc.section.7.8.p.9"><pre class="text">GET /hello HTTP/1.1
Host: www.example.com
Connection: upgrade
Upgrade: websocket, IRC/6.9, RTA/x11

</pre></div><div id="rfc.section.7.8.p.10"><p>The capabilities and nature of the application-level communication after the protocol change is entirely dependent upon the new protocol(s) chosen. However, immediately after sending the <a href="##status.101" class="smpl">101 (Switching Protocols)</a> response, the server is expected to continue responding to the original request as if it had received its equivalent within the new protocol (i.e., the server still has an outstanding request to satisfy after the protocol has been changed, and is expected to do so without requiring the request to be repeated).</p></div><div id="rfc.section.7.8.p.11"><p>For example, if the Upgrade header field is received in a GET request and the server decides to switch protocols, it first responds with a <a href="##status.101" class="smpl">101 (Switching Protocols)</a> message in HTTP/1.1 and then immediately follows that with the new protocol's equivalent of a response to a GET on the target resource. This allows a connection to be upgraded to protocols with the same semantics as HTTP without the latency cost of an additional round trip. A server <em class="bcp14">MUST NOT</em> switch protocols unless the received message semantics can be honored by the new protocol; an OPTIONS request can be honored by any protocol.</p></div><div id="rfc.section.7.8.p.12" class="avoidbreakafter"><p>The following is an example response to the above hypothetical request:</p></div><div id="rfc.section.7.8.p.13"><pre class="text">HTTP/1.1 101 Switching Protocols
Connection: upgrade
Upgrade: websocket

[... data stream switches to websocket with an appropriate response
(as defined by new protocol) to the "GET /hello" request ...]
</pre></div><div id="rfc.section.7.8.p.14"><p>A sender of Upgrade <em class="bcp14">MUST</em> also send an "Upgrade" connection option in the <a href="##field.connection" class="smpl">Connection</a> header field (<a href="##field.connection" id="rfc.xref.field.connection.3" title="Connection">Section 7.6.1</a>) to inform intermediaries not to forward this field. A server that receives an Upgrade header field in an HTTP/1.0 request <em class="bcp14">MUST</em> ignore that Upgrade field.</p></div><div id="rfc.section.7.8.p.15"><p>A client cannot begin using an upgraded protocol on the connection until it has completely sent the request message (i.e., the client can't change the protocol it is sending in the middle of a message). If a server receives both an Upgrade and an <a href="##field.expect" class="smpl">Expect</a> header field with the "100-continue" expectation (<a href="##field.expect" id="rfc.xref.field.expect.1" title="Expect">Section 10.1.1</a>), the server <em class="bcp14">MUST</em> send a <a href="##status.100" class="smpl">100 (Continue)</a> response before sending a <a href="##status.101" class="smpl">101 (Switching Protocols)</a> response.</p></div><div id="rfc.section.7.8.p.16"><p>The Upgrade header field only applies to switching protocols on top of the existing connection; it cannot be used to switch the underlying connection (transport) protocol, nor to switch the existing communication to a different connection. For those purposes, it is more appropriate to use a <a href="##status.3xx" class="smpl">3xx (Redirection)</a> response (<a href="##status.3xx" id="rfc.xref.status.3xx.1" title="Redirection 3xx">Section 15.4</a>).</p></div><div id="rfc.section.7.8.p.17"><p>This specification only defines the protocol name "HTTP" for use by the family of Hypertext Transfer Protocols, as defined by the HTTP version rules of <a href="##protocol.version" title="Protocol Version">Section 2.5</a> and future updates to this specification. Additional protocol names ought to be registered using the registration procedure defined in <a href="##upgrade.token.registry" title="Upgrade Token Registry">Section 16.7</a>.</p></div></section></section><section id="representation.data.and.metadata"><h2 id="rfc.section.8"><a href="##rfc.section.8">8.</a>&nbsp;<a href="##representation.data.and.metadata">Representation Data and Metadata</a></h2><section id="representation.data"><h3 id="rfc.section.8.1"><a href="##rfc.section.8.1">8.1.</a>&nbsp;<a href="##representation.data">Representation Data</a></h3><div id="rfc.section.8.1.p.1"><p>The representation data associated with an HTTP message is either provided as the content of the message or referred to by the message semantics and the target URI. The representation data is in a format and encoding defined by the representation metadata header fields.</p></div><div id="rfc.section.8.1.p.2" class="avoidbreakafter"><p>The data type of the representation data is determined via the header fields <a href="##field.content-type" class="smpl">Content-Type</a> and <a href="##field.content-encoding" class="smpl">Content-Encoding</a>. These define a two-layer, ordered encoding model:</p></div><div id="rfc.section.8.1.p.3"><pre class="text">  representation-data := Content-Encoding( Content-Type( data ) )
</pre></div></section><section id="representation.metadata"><h3 id="rfc.section.8.2"><a href="##rfc.section.8.2">8.2.</a>&nbsp;<a href="##representation.metadata">Representation Metadata</a></h3><div id="rfc.section.8.2.p.1"><p>Representation header fields provide metadata about the representation. When a message includes content, the representation header fields describe how to interpret that data. In a response to a HEAD request, the representation header fields describe the representation data that would have been enclosed in the content if the same request had been a GET.</p></div></section><section id="field.content-type"><h3 id="rfc.section.8.3"><a href="##rfc.section.8.3">8.3.</a>&nbsp;<a href="##field.content-type">Content-Type</a></h3><div id="rfc.section.8.3.p.1"><p>The "Content-Type" header field indicates the media type of the associated representation: either the representation enclosed in the message content or the <a href="##selected.representation" class="smpl">selected representation</a>, as determined by the message semantics. The indicated media type defines both the data format and how that data is intended to be processed by a recipient, within the scope of the received message semantics, after any content codings indicated by <a href="##field.content-encoding" class="smpl">Content-Encoding</a> are decoded.</p></div><div id="rfc.section.8.3.p.2"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.62"></span><span class="pln">  </span><a href="##field.content-type" class="smpl"><span class="typ">Content-Type</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><a href="##media.type" class="smpl"><span class="typ">media-type</span></a>
</pre></div><div id="rfc.section.8.3.p.3"><p>Media types are defined in <a href="##media.type" title="Media Type">Section 8.3.1</a>. An example of the field is</p></div><div id="rfc.section.8.3.p.4"><pre class="text">Content-Type: text/html; charset=ISO-8859-4
</pre></div><div id="rfc.section.8.3.p.5"><p>A sender that generates a message containing content <em class="bcp14">SHOULD</em> generate a Content-Type header field in that message unless the intended media type of the enclosed representation is unknown to the sender. If a Content-Type header field is not present, the recipient <em class="bcp14">MAY</em> either assume a media type of "application/octet-stream" (<a href="##RFC2046" id="rfc.xref.RFC2046.1"><cite title="Multipurpose Internet Mail Extensions (MIME) Part Two: Media Types">[RFC2046]</cite></a>, <a href="https://www.rfc-editor.org/rfc/rfc2046.html#section-4.5.1">Section 4.5.1</a>) or examine the data to determine its type.</p></div><div id="rfc.section.8.3.p.6"><p>In practice, resource owners do not always properly configure their origin server to provide the correct Content-Type for a given representation. Some user agents examine the content and, in certain cases, override the received type (for example, see <a href="##Sniffing" id="rfc.xref.Sniffing.1"><cite title="MIME Sniffing">[Sniffing]</cite></a>). This "MIME sniffing" risks drawing incorrect conclusions about the data, which might expose the user to additional security risks (e.g., "privilege escalation"). Furthermore, distinct media types often share a common data format, differing only in how the data is intended to be processed, which is impossible to distinguish by inspecting the data alone. When sniffing is implemented, implementers are encouraged to provide a means for the user to disable it.</p></div><div id="rfc.section.8.3.p.7"><p>Although Content-Type is defined as a singleton field, it is sometimes incorrectly generated multiple times, resulting in a combined field value that appears to be a list. Recipients often attempt to handle this error by using the last syntactically valid member of the list, leading to potential interoperability and security issues if different implementations have different error handling behaviors.</p></div><section id="media.type"><h4 id="rfc.section.8.3.1"><a href="##rfc.section.8.3.1">8.3.1.</a>&nbsp;<a href="##media.type">Media Type</a></h4><div id="rfc.section.8.3.1.p.1"><p>HTTP uses media types <a href="##RFC2046" id="rfc.xref.RFC2046.2"><cite title="Multipurpose Internet Mail Extensions (MIME) Part Two: Media Types">[RFC2046]</cite></a> in the <a href="##field.content-type" class="smpl">Content-Type</a> (<a href="##field.content-type" id="rfc.xref.field.content-type.2" title="Content-Type">Section 8.3</a>) and <a href="##field.accept" class="smpl">Accept</a> (<a href="##field.accept" id="rfc.xref.field.accept.2" title="Accept">Section 12.5.1</a>) header fields in order to provide open and extensible data typing and type negotiation. Media types define both a data format and various processing models: how to process that data in accordance with the message context.</p></div><div id="rfc.section.8.3.1.p.2"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.63"></span><span id="rfc.iref.g.64"></span><span id="rfc.iref.g.65"></span><span class="pln">  </span><a href="##media.type" class="smpl"><span class="typ">media-type</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><a href="##media.type" class="smpl"><span class="typ">type</span></a><span class="pln"> </span><span class="str">"/"</span><span class="pln"> </span><a href="##media.type" class="smpl"><span class="typ">subtype</span></a><span class="pln"> </span><a href="##rule.parameter" class="smpl"><span class="typ">parameters</span></a><span class="pln">
  </span><a href="##media.type" class="smpl"><span class="typ">type</span></a><span class="pln">       </span><span class="pun">=</span><span class="pln"> </span><a href="##rule.token.separators" class="smpl"><span class="typ">token</span></a><span class="pln">
  </span><a href="##media.type" class="smpl"><span class="typ">subtype</span></a><span class="pln">    </span><span class="pun">=</span><span class="pln"> </span><a href="##rule.token.separators" class="smpl"><span class="typ">token</span></a>
</pre></div><div id="rfc.section.8.3.1.p.3"><p>The type and subtype tokens are case-insensitive.</p></div><div id="rfc.section.8.3.1.p.4"><p>The type/subtype <em class="bcp14">MAY</em> be followed by semicolon-delimited parameters (<a href="##parameter" title="Parameters">Section 5.6.6</a>) in the form of name/value pairs. The presence or absence of a parameter might be significant to the processing of a media type, depending on its definition within the media type registry. Parameter values might or might not be case-sensitive, depending on the semantics of the parameter name.</p></div><div id="rfc.section.8.3.1.p.5" class="avoidbreakafter"><p>For example, the following media types are equivalent in describing HTML text data encoded in the UTF-8 character encoding scheme, but the first is preferred for consistency (the "charset" parameter value is defined as being case-insensitive in <a href="##RFC2046" id="rfc.xref.RFC2046.3"><cite title="Multipurpose Internet Mail Extensions (MIME) Part Two: Media Types">[RFC2046]</cite></a>, <a href="https://www.rfc-editor.org/rfc/rfc2046.html#section-4.1.2">Section 4.1.2</a>):</p></div><div id="rfc.section.8.3.1.p.6"><pre class="text">  text/html;charset=utf-8
  Text/HTML;Charset="utf-8"
  text/html; charset="utf-8"
  text/html;charset=UTF-8
</pre></div><div id="rfc.section.8.3.1.p.7"><p>Media types ought to be registered with IANA according to the procedures defined in <a href="##BCP13" id="rfc.xref.BCP13.1">[BCP13]</a>.</p></div></section><section id="charset"><h4 id="rfc.section.8.3.2"><a href="##rfc.section.8.3.2">8.3.2.</a>&nbsp;<a href="##charset">Charset</a></h4><div id="rfc.section.8.3.2.p.1"><p>HTTP uses <dfn>charset</dfn> names to indicate or negotiate the character encoding scheme (<a href="##RFC6365" id="rfc.xref.RFC6365.2"><cite title="Terminology Used in Internationalization in the IETF">[RFC6365]</cite></a>, <a href="https://www.rfc-editor.org/rfc/rfc6365.html#section-2">Section 2</a>) of a textual representation. In the fields defined by this document, charset names appear either in parameters (<a href="##field.content-type" class="smpl">Content-Type</a>), or, for <a href="##field.accept-encoding" class="smpl">Accept-Encoding</a>, in the form of a plain <a href="##rule.token.separators" class="smpl">token</a>. In both cases, charset names are matched case-insensitively.</p></div><div id="rfc.section.8.3.2.p.2"><p>Charset names ought to be registered in the IANA "Character Sets" registry (<a href="https://www.iana.org/assignments/character-sets">https://www.iana.org/assignments/character-sets</a>) according to the procedures defined in <a href="https://www.rfc-editor.org/rfc/rfc2978.html#section-2">Section 2</a> of <a href="##RFC2978" id="rfc.xref.RFC2978.1"><cite title="IANA Charset Registration Procedures">[RFC2978]</cite></a>.</p></div><div id="rfc.section.8.3.2.p.3"><aside><div id="rfc.section.8.3.2.p.3.1"><p><b>Note:</b> In theory, charset names are defined by the "mime-charset" ABNF rule defined in <a href="https://www.rfc-editor.org/rfc/rfc2978.html#section-2.3">Section 2.3</a> of <a href="##RFC2978" id="rfc.xref.RFC2978.2"><cite title="IANA Charset Registration Procedures">[RFC2978]</cite></a> (as corrected in <a href="##Err1912" id="rfc.xref.Err1912.1"><cite title="Erratum ID 1912">[Err1912]</cite></a>). That rule allows two characters that are not included in "token" ("{" and "}"), but no charset name registered at the time of this writing includes braces (see <a href="##Err5433" id="rfc.xref.Err5433.1"><cite title="Erratum ID 5433">[Err5433]</cite></a>).</p></div></aside></div></section><section id="multipart.types"><h4 id="rfc.section.8.3.3"><a href="##rfc.section.8.3.3">8.3.3.</a>&nbsp;<a href="##multipart.types">Multipart Types</a></h4><div id="rfc.section.8.3.3.p.1"><p>MIME provides for a number of "multipart" types — encapsulations of one or more representations within a single message body. All multipart types share a common syntax, as defined in <a href="https://www.rfc-editor.org/rfc/rfc2046.html#section-5.1.1">Section 5.1.1</a> of <a href="##RFC2046" id="rfc.xref.RFC2046.4"><cite title="Multipurpose Internet Mail Extensions (MIME) Part Two: Media Types">[RFC2046]</cite></a>, and include a boundary parameter as part of the media type value. The message body is itself a protocol element; a sender <em class="bcp14">MUST</em> generate only CRLF to represent line breaks between body parts.</p></div><div id="rfc.section.8.3.3.p.2"><p>HTTP message framing does not use the multipart boundary as an indicator of message body length, though it might be used by implementations that generate or process the content. For example, the "multipart/form-data" type is often used for carrying form data in a request, as described in <a href="##RFC7578" id="rfc.xref.RFC7578.1"><cite title="Returning Values from Forms: multipart/form-data">[RFC7578]</cite></a>, and the "multipart/byteranges" type is defined by this specification for use in some <a href="##status.206" class="smpl">206 (Partial Content)</a> responses (see <a href="##status.206" id="rfc.xref.status.206.2" title="206 Partial Content">Section 15.3.7</a>).</p></div></section></section><section id="field.content-encoding"><h3 id="rfc.section.8.4"><a href="##rfc.section.8.4">8.4.</a>&nbsp;<a href="##field.content-encoding">Content-Encoding</a></h3><div id="rfc.section.8.4.p.1"><p>The "Content-Encoding" header field indicates what content codings have been applied to the representation, beyond those inherent in the media type, and thus what decoding mechanisms have to be applied in order to obtain data in the media type referenced by the <a href="##field.content-type" class="smpl">Content-Type</a> header field. Content-Encoding is primarily used to allow a representation's data to be compressed without losing the identity of its underlying media type.</p></div><div id="rfc.section.8.4.p.2"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.66"></span><span class="pln">  </span><a href="##field.content-encoding" class="smpl"><span class="typ">Content-Encoding</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="pun">#</span><a href="##content.codings" class="smpl"><span class="typ">content-coding</span></a>
</pre></div><div id="rfc.section.8.4.p.3"><p>An example of its use is</p></div><div id="rfc.section.8.4.p.4"><pre class="text">Content-Encoding: gzip
</pre></div><div id="rfc.section.8.4.p.5"><p>If one or more encodings have been applied to a representation, the sender that applied the encodings <em class="bcp14">MUST</em> generate a Content-Encoding header field that lists the content codings in the order in which they were applied. Note that the coding named "identity" is reserved for its special role in <a href="##field.accept-encoding" class="smpl">Accept-Encoding</a> and thus <em class="bcp14">SHOULD NOT</em> be included.</p></div><div id="rfc.section.8.4.p.6"><p>Additional information about the encoding parameters can be provided by other header fields not defined by this specification.</p></div><div id="rfc.section.8.4.p.7"><p>Unlike Transfer-Encoding (<a href="https://httpwg.org/specs/rfc9112.html#field.transfer-encoding" title="Transfer-Encoding">Section 6.1</a> of <a href="##HTTP11" id="rfc.xref.HTTP11.15"><cite title="HTTP/1.1">[HTTP/1.1]</cite></a>), the codings listed in Content-Encoding are a characteristic of the representation; the representation is defined in terms of the coded form, and all other metadata about the representation is about the coded form unless otherwise noted in the metadata definition. Typically, the representation is only decoded just prior to rendering or analogous usage.</p></div><div id="rfc.section.8.4.p.8"><p>If the media type includes an inherent encoding, such as a data format that is always compressed, then that encoding would not be restated in Content-Encoding even if it happens to be the same algorithm as one of the content codings. Such a content coding would only be listed if, for some bizarre reason, it is applied a second time to form the representation. Likewise, an origin server might choose to publish the same data as multiple representations that differ only in whether the coding is defined as part of <a href="##field.content-type" class="smpl">Content-Type</a> or Content-Encoding, since some user agents will behave differently in their handling of each response (e.g., open a "Save as ..." dialog instead of automatic decompression and rendering of content).</p></div><div id="rfc.section.8.4.p.9"><p>An origin server <em class="bcp14">MAY</em> respond with a status code of <a href="##status.415" class="smpl">415 (Unsupported Media Type)</a> if a representation in the request message has a content coding that is not acceptable.</p></div><section id="content.codings"><h4 id="rfc.section.8.4.1"><a href="##rfc.section.8.4.1">8.4.1.</a>&nbsp;<a href="##content.codings">Content Codings</a></h4><div id="rfc.section.8.4.1.p.1"><p>Content coding values indicate an encoding transformation that has been or can be applied to a representation. Content codings are primarily used to allow a representation to be compressed or otherwise usefully transformed without losing the identity of its underlying media type and without loss of information. Frequently, the representation is stored in coded form, transmitted directly, and only decoded by the final recipient.</p></div><div id="rfc.section.8.4.1.p.2"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.67"></span><span class="pln">  </span><a href="##content.codings" class="smpl"><span class="typ">content-coding</span></a><span class="pln">   </span><span class="pun">=</span><span class="pln"> </span><a href="##rule.token.separators" class="smpl"><span class="typ">token</span></a>
</pre></div><div id="rfc.section.8.4.1.p.3"><p>All content codings are case-insensitive and ought to be registered within the "HTTP Content Coding Registry", as described in <a href="##content.coding.extensibility" title="Content Coding Extensibility">Section 16.6</a> </p></div><div id="rfc.section.8.4.1.p.4"><p>Content-coding values are used in the <a href="##field.accept-encoding" class="smpl">Accept-Encoding</a> (<a href="##field.accept-encoding" id="rfc.xref.field.accept-encoding.1" title="Accept-Encoding">Section 12.5.3</a>) and <a href="##field.content-encoding" class="smpl">Content-Encoding</a> (<a href="##field.content-encoding" id="rfc.xref.field.content-encoding.1" title="Content-Encoding">Section 8.4</a>) header fields.</p></div><section id="compress.coding"><h5 id="rfc.section.8.4.1.1"><a href="##rfc.section.8.4.1.1">8.4.1.1.</a>&nbsp;<a href="##compress.coding">Compress Coding</a></h5><div id="rfc.section.8.4.1.1.p.1"><p>The "compress" coding is an adaptive Lempel-Ziv-Welch (LZW) coding <a href="##Welch" id="rfc.xref.Welch.1"><cite title="A Technique for High-Performance Data Compression">[Welch]</cite></a> that is commonly produced by the UNIX file compression program "compress". A recipient <em class="bcp14">SHOULD</em> consider "x-compress" to be equivalent to "compress".</p></div></section><section id="deflate.coding"><h5 id="rfc.section.8.4.1.2"><a href="##rfc.section.8.4.1.2">8.4.1.2.</a>&nbsp;<a href="##deflate.coding">Deflate Coding</a></h5><div id="rfc.section.8.4.1.2.p.1"><p>The "deflate" coding is a "zlib" data format <a href="##RFC1950" id="rfc.xref.RFC1950.1"><cite title="ZLIB Compressed Data Format Specification version 3.3">[RFC1950]</cite></a> containing a "deflate" compressed data stream <a href="##RFC1951" id="rfc.xref.RFC1951.1"><cite title="DEFLATE Compressed Data Format Specification version 1.3">[RFC1951]</cite></a> that uses a combination of the Lempel-Ziv (LZ77) compression algorithm and Huffman coding.</p></div><div id="rfc.section.8.4.1.2.p.2"><aside><div id="rfc.section.8.4.1.2.p.2.1"><p><b>Note:</b> Some non-conformant implementations send the "deflate" compressed data without the zlib wrapper.</p></div></aside></div></section><section id="gzip.coding"><h5 id="rfc.section.8.4.1.3"><a href="##rfc.section.8.4.1.3">8.4.1.3.</a>&nbsp;<a href="##gzip.coding">Gzip Coding</a></h5><div id="rfc.section.8.4.1.3.p.1"><p>The "gzip" coding is an LZ77 coding with a 32-bit Cyclic Redundancy Check (CRC) that is commonly produced by the gzip file compression program <a href="##RFC1952" id="rfc.xref.RFC1952.1"><cite title="GZIP file format specification version 4.3">[RFC1952]</cite></a>. A recipient <em class="bcp14">SHOULD</em> consider "x-gzip" to be equivalent to "gzip".</p></div></section></section></section><section id="field.content-language"><h3 id="rfc.section.8.5"><a href="##rfc.section.8.5">8.5.</a>&nbsp;<a href="##field.content-language">Content-Language</a></h3><div id="rfc.section.8.5.p.1"><p>The "Content-Language" header field describes the natural language(s) of the intended audience for the representation. Note that this might not be equivalent to all the languages used within the representation.</p></div><div id="rfc.section.8.5.p.2"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.68"></span><span class="pln">  </span><a href="##field.content-language" class="smpl"><span class="typ">Content-Language</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="pun">#</span><a href="##language.tags" class="smpl"><span class="typ">language-tag</span></a>
</pre></div><div id="rfc.section.8.5.p.3"><p>Language tags are defined in <a href="##language.tags" title="Language Tags">Section 8.5.1</a>. The primary purpose of Content-Language is to allow a user to identify and differentiate representations according to the users' own preferred language. Thus, if the content is intended only for a Danish-literate audience, the appropriate field is</p></div><div id="rfc.section.8.5.p.4"><pre class="text">Content-Language: da
</pre></div><div id="rfc.section.8.5.p.5"><p>If no Content-Language is specified, the default is that the content is intended for all language audiences. This might mean that the sender does not consider it to be specific to any natural language, or that the sender does not know for which language it is intended.</p></div><div id="rfc.section.8.5.p.6"><p>Multiple languages <em class="bcp14">MAY</em> be listed for content that is intended for multiple audiences. For example, a rendition of the "Treaty of Waitangi", presented simultaneously in the original Maori and English versions, would call for</p></div><div id="rfc.section.8.5.p.7"><pre class="text">Content-Language: mi, en
</pre></div><div id="rfc.section.8.5.p.8"><p>However, just because multiple languages are present within a representation does not mean that it is intended for multiple linguistic audiences. An example would be a beginner's language primer, such as "A First Lesson in Latin", which is clearly intended to be used by an English-literate audience. In this case, the Content-Language would properly only include "en".</p></div><div id="rfc.section.8.5.p.9"><p>Content-Language <em class="bcp14">MAY</em> be applied to any media type — it is not limited to textual documents.</p></div><section id="language.tags"><h4 id="rfc.section.8.5.1"><a href="##rfc.section.8.5.1">8.5.1.</a>&nbsp;<a href="##language.tags">Language Tags</a></h4><div id="rfc.section.8.5.1.p.1"><p>A language tag, as defined in <a href="##RFC5646" id="rfc.xref.RFC5646.1"><cite title="Tags for Identifying Languages">[RFC5646]</cite></a>, identifies a natural language spoken, written, or otherwise conveyed by human beings for communication of information to other human beings. Computer languages are explicitly excluded.</p></div><div id="rfc.section.8.5.1.p.2"><p>HTTP uses language tags within the <a href="##field.accept-language" class="smpl">Accept-Language</a> and <a href="##field.content-language" class="smpl">Content-Language</a> header fields. <a href="##field.accept-language" class="smpl">Accept-Language</a> uses the broader language-range production defined in <a href="##field.accept-language" id="rfc.xref.field.accept-language.1" title="Accept-Language">Section 12.5.4</a>, whereas <a href="##field.content-language" class="smpl">Content-Language</a> uses the language-tag production defined below.</p></div><div id="rfc.section.8.5.1.p.3"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.69"></span><span class="pln">  </span><a href="##language.tags" class="smpl"><span class="typ">language-tag</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="nocode">&lt;Language-Tag, see </span><a href="##RFC5646" id="rfc.xref.RFC5646.2"><cite title="Tags for Identifying Languages"><span class="nocode">[RFC5646]</span></cite></a><span class="nocode">, </span><a href="https://www.rfc-editor.org/rfc/rfc5646.html#section-2.1"><span class="nocode">Section 2.1</span></a><span class="nocode">&gt;</span></pre></div><div id="rfc.section.8.5.1.p.4" class="avoidbreakafter"><p>A language tag is a sequence of one or more case-insensitive subtags, each separated by a hyphen character ("-", %x2D). In most cases, a language tag consists of a primary language subtag that identifies a broad family of related languages (e.g., "en" = English), which is optionally followed by a series of subtags that refine or narrow that language's range (e.g., "en-CA" = the variety of English as communicated in Canada). Whitespace is not allowed within a language tag. Example tags include:</p></div><div id="rfc.section.8.5.1.p.5"><pre class="text">  fr, en-US, es-419, az-Arab, x-pig-latin, man-Nkoo-GN
</pre></div><div id="rfc.section.8.5.1.p.6"><p>See <a href="##RFC5646" id="rfc.xref.RFC5646.3"><cite title="Tags for Identifying Languages">[RFC5646]</cite></a> for further information.</p></div></section></section><section id="field.content-length"><h3 id="rfc.section.8.6"><a href="##rfc.section.8.6">8.6.</a>&nbsp;<a href="##field.content-length">Content-Length</a></h3><div id="rfc.section.8.6.p.1"><p>The "Content-Length" header field indicates the associated representation's data length as a decimal non-negative integer number of octets. When transferring a representation as content, Content-Length refers specifically to the amount of data enclosed so that it can be used to delimit framing (e.g., <a href="https://httpwg.org/specs/rfc9112.html#body.content-length" title="Content-Length">Section 6.2</a> of <a href="##HTTP11" id="rfc.xref.HTTP11.16"><cite title="HTTP/1.1">[HTTP/1.1]</cite></a>). In other cases, Content-Length indicates the selected representation's current length, which can be used by recipients to estimate transfer time or to compare with previously stored representations.</p></div><div id="rfc.section.8.6.p.2"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.70"></span><span class="pln">  </span><a href="##field.content-length" class="smpl"><span class="typ">Content-Length</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> 1</span><span class="pun">*</span><a href="##core.rules" class="smpl"><span class="typ">DIGIT</span></a>
</pre></div><div id="rfc.section.8.6.p.3"><p>An example is</p></div><div id="rfc.section.8.6.p.4"><pre class="text">Content-Length: 3495
</pre></div><div id="rfc.section.8.6.p.5"><p>A user agent <em class="bcp14">SHOULD</em> send Content-Length in a request when the method defines a meaning for enclosed content and it is not sending <a href="https://httpwg.org/specs/rfc9112.html#field.transfer-encoding" class="smpl">Transfer-Encoding</a>. For example, a user agent normally sends Content-Length in a POST request even when the value is 0 (indicating empty content). A user agent <em class="bcp14">SHOULD NOT</em> send a Content-Length header field when the request message does not contain content and the method semantics do not anticipate such data.</p></div><div id="rfc.section.8.6.p.6"><p>A server <em class="bcp14">MAY</em> send a Content-Length header field in a response to a HEAD request (<a href="##HEAD" id="rfc.xref.HEAD.2" title="HEAD">Section 9.3.2</a>); a server <em class="bcp14">MUST NOT</em> send Content-Length in such a response unless its field value equals the decimal number of octets that would have been sent in the content of a response if the same request had used the GET method.</p></div><div id="rfc.section.8.6.p.7"><p>A server <em class="bcp14">MAY</em> send a Content-Length header field in a <a href="##status.304" class="smpl">304 (Not Modified)</a> response to a conditional GET request (<a href="##status.304" id="rfc.xref.status.304.1" title="304 Not Modified">Section 15.4.5</a>); a server <em class="bcp14">MUST NOT</em> send Content-Length in such a response unless its field value equals the decimal number of octets that would have been sent in the content of a <a href="##status.200" class="smpl">200 (OK)</a> response to the same request.</p></div><div id="rfc.section.8.6.p.8"><p>A server <em class="bcp14">MUST NOT</em> send a Content-Length header field in any response with a status code of <a href="##status.1xx" class="smpl">1xx (Informational)</a> or <a href="##status.204" class="smpl">204 (No Content)</a>. A server <em class="bcp14">MUST NOT</em> send a Content-Length header field in any <a href="##status.2xx" class="smpl">2xx (Successful)</a> response to a CONNECT request (<a href="##CONNECT" id="rfc.xref.CONNECT.4" title="CONNECT">Section 9.3.6</a>).</p></div><div id="rfc.section.8.6.p.9"><p>Aside from the cases defined above, in the absence of Transfer-Encoding, an origin server <em class="bcp14">SHOULD</em> send a Content-Length header field when the content size is known prior to sending the complete header section. This will allow downstream recipients to measure transfer progress, know when a received message is complete, and potentially reuse the connection for additional requests.</p></div><div id="rfc.section.8.6.p.10"><p>Any Content-Length field value greater than or equal to zero is valid. Since there is no predefined limit to the length of content, a recipient <em class="bcp14">MUST</em> anticipate potentially large decimal numerals and prevent parsing errors due to integer conversion overflows or precision loss due to integer conversion (<a href="##attack.protocol.element.length" title="Attacks via Protocol Element Length">Section 17.5</a>).</p></div><div id="rfc.section.8.6.p.11"><p>Because Content-Length is used for message delimitation in HTTP/1.1, its field value can impact how the message is parsed by downstream recipients even when the immediate connection is not using HTTP/1.1. If the message is forwarded by a downstream intermediary, a Content-Length field value that is inconsistent with the received message framing might cause a security failure due to request smuggling or response splitting.</p></div><div id="rfc.section.8.6.p.12"><p>As a result, a sender <em class="bcp14">MUST NOT</em> forward a message with a Content-Length header field value that is known to be incorrect.</p></div><div id="rfc.section.8.6.p.13"><p>Likewise, a sender <em class="bcp14">MUST NOT</em> forward a message with a Content-Length header field value that does not match the ABNF above, with one exception: a recipient of a Content-Length header field value consisting of the same decimal value repeated as a comma-separated list (e.g, "Content-Length: 42, 42") <em class="bcp14">MAY</em> either reject the message as invalid or replace that invalid field value with a single instance of the decimal value, since this likely indicates that a duplicate was generated or combined by an upstream message processor.</p></div></section><section id="field.content-location"><h3 id="rfc.section.8.7"><a href="##rfc.section.8.7">8.7.</a>&nbsp;<a href="##field.content-location">Content-Location</a></h3><div id="rfc.section.8.7.p.1"><p>The "Content-Location" header field references a URI that can be used as an identifier for a specific resource corresponding to the representation in this message's content. In other words, if one were to perform a GET request on this URI at the time of this message's generation, then a <a href="##status.200" class="smpl">200 (OK)</a> response would contain the same representation that is enclosed as content in this message.</p></div><div id="rfc.section.8.7.p.2"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.71"></span><span class="pln">  </span><a href="##field.content-location" class="smpl"><span class="typ">Content-Location</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><a href="##uri.references" class="smpl"><span class="typ">absolute-URI</span></a><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><a href="##uri.references" class="smpl"><span class="typ">partial-URI</span></a>
</pre></div><div id="rfc.section.8.7.p.3"><p>The field value is either an <a href="##uri.references" class="smpl">absolute-URI</a> or a <a href="##uri.references" class="smpl">partial-URI</a>. In the latter case (<a href="##uri" title="Identifiers in HTTP">Section 4</a>), the referenced URI is relative to the target URI (<a href="##URI" id="rfc.xref.URI.27"><cite title="Uniform Resource Identifier (URI): Generic Syntax">[URI]</cite></a>, <a href="https://www.rfc-editor.org/rfc/rfc3986.html#section-5">Section 5</a>).</p></div><div id="rfc.section.8.7.p.4"><p>The Content-Location value is not a replacement for the target URI (<a href="##target.resource" title="Determining the Target Resource">Section 7.1</a>). It is representation metadata. It has the same syntax and semantics as the header field of the same name defined for MIME body parts in <a href="https://www.rfc-editor.org/rfc/rfc2557.html#section-4">Section 4</a> of <a href="##RFC2557" id="rfc.xref.RFC2557.1"><cite title="MIME Encapsulation of Aggregate Documents, such as HTML (MHTML)">[RFC2557]</cite></a>. However, its appearance in an HTTP message has some special implications for HTTP recipients.</p></div><div id="rfc.section.8.7.p.5"><p>If Content-Location is included in a <a href="##status.2xx" class="smpl">2xx (Successful)</a> response message and its value refers (after conversion to absolute form) to a URI that is the same as the target URI, then the recipient <em class="bcp14">MAY</em> consider the content to be a current representation of that resource at the time indicated by the message origination date. For a GET (<a href="##GET" id="rfc.xref.GET.5" title="GET">Section 9.3.1</a>) or HEAD (<a href="##HEAD" id="rfc.xref.HEAD.3" title="HEAD">Section 9.3.2</a>) request, this is the same as the default semantics when no Content-Location is provided by the server. For a state-changing request like PUT (<a href="##PUT" id="rfc.xref.PUT.2" title="PUT">Section 9.3.4</a>) or POST (<a href="##POST" id="rfc.xref.POST.2" title="POST">Section 9.3.3</a>), it implies that the server's response contains the new representation of that resource, thereby distinguishing it from representations that might only report about the action (e.g., "It worked!"). This allows authoring applications to update their local copies without the need for a subsequent GET request.</p></div><div id="rfc.section.8.7.p.6"><p>If Content-Location is included in a <a href="##status.2xx" class="smpl">2xx (Successful)</a> response message and its field value refers to a URI that differs from the target URI, then the origin server claims that the URI is an identifier for a different resource corresponding to the enclosed representation. Such a claim can only be trusted if both identifiers share the same resource owner, which cannot be programmatically determined via HTTP.</p></div><div id="rfc.section.8.7.p.7"><ul><li>For a response to a GET or HEAD request, this is an indication that the target URI refers to a resource that is subject to content negotiation and the Content-Location field value is a more specific identifier for the <a href="##selected.representation" class="smpl">selected representation</a>.</li><li>For a <a href="##status.201" class="smpl">201 (Created)</a> response to a state-changing method, a Content-Location field value that is identical to the <a href="##field.location" class="smpl">Location</a> field value indicates that this content is a current representation of the newly created resource.</li><li>Otherwise, such a Content-Location indicates that this content is a representation reporting on the requested action's status and that the same report is available (for future access with GET) at the given URI. For example, a purchase transaction made via a POST request might include a receipt document as the content of the <a href="##status.200" class="smpl">200 (OK)</a> response; the Content-Location field value provides an identifier for retrieving a copy of that same receipt in the future.</li></ul></div><div id="rfc.section.8.7.p.8"><p>A user agent that sends Content-Location in a request message is stating that its value refers to where the user agent originally obtained the content of the enclosed representation (prior to any modifications made by that user agent). In other words, the user agent is providing a back link to the source of the original representation.</p></div><div id="rfc.section.8.7.p.9"><p>An origin server that receives a Content-Location field in a request message <em class="bcp14">MUST</em> treat the information as transitory request context rather than as metadata to be saved verbatim as part of the representation. An origin server <em class="bcp14">MAY</em> use that context to guide in processing the request or to save it for other uses, such as within source links or versioning metadata. However, an origin server <em class="bcp14">MUST NOT</em> use such context information to alter the request semantics.</p></div><div id="rfc.section.8.7.p.10"><p>For example, if a client makes a PUT request on a negotiated resource and the origin server accepts that PUT (without redirection), then the new state of that resource is expected to be consistent with the one representation supplied in that PUT; the Content-Location cannot be used as a form of reverse content selection identifier to update only one of the negotiated representations. If the user agent had wanted the latter semantics, it would have applied the PUT directly to the Content-Location URI.</p></div></section><section id="response.validator"><h3 id="rfc.section.8.8"><a href="##rfc.section.8.8">8.8.</a>&nbsp;<a href="##response.validator">Validator Fields</a></h3><div id="rfc.section.8.8.p.1"><p>Resource metadata is referred to as a <dfn>validator</dfn> if it can be used within a precondition (<a href="##preconditions" title="Preconditions">Section 13.1</a>) to make a conditional request (<a href="##conditional.requests" title="Conditional Requests">Section 13</a>). Validator fields convey a current validator for the <a href="##selected.representation" class="smpl">selected representation</a> (<a href="##representations" title="Representations">Section 3.2</a>).</p></div><div id="rfc.section.8.8.p.2"><p>In responses to safe requests, validator fields describe the selected representation chosen by the origin server while handling the response. Note that, depending on the method and status code semantics, the selected representation for a given response is not necessarily the same as the representation enclosed as response content.</p></div><div id="rfc.section.8.8.p.3"><p>In a successful response to a state-changing request, validator fields describe the new representation that has replaced the prior <a href="##selected.representation" class="smpl">selected representation</a> as a result of processing the request.</p></div><div id="rfc.section.8.8.p.4"><p>For example, an ETag field in a <a href="##status.201" class="smpl">201 (Created)</a> response communicates the entity tag of the newly created resource's representation, so that the entity tag can be used as a validator in later conditional requests to prevent the "lost update" problem.</p></div><div id="rfc.section.8.8.p.5"><p>This specification defines two forms of metadata that are commonly used to observe resource state and test for preconditions: modification dates (<a href="##field.last-modified" id="rfc.xref.field.last-modified.1" title="Last-Modified">Section 8.8.2</a>) and opaque entity tags (<a href="##field.etag" id="rfc.xref.field.etag.1" title="ETag">Section 8.8.3</a>). Additional metadata that reflects resource state has been defined by various extensions of HTTP, such as Web Distributed Authoring and Versioning <a href="##WEBDAV" id="rfc.xref.WEBDAV.1"><cite title="HTTP Extensions for Web Distributed Authoring and Versioning (WebDAV)">[WEBDAV]</cite></a>, that are beyond the scope of this specification.</p></div><section id="weak.and.strong.validators"><h4 id="rfc.section.8.8.1"><a href="##rfc.section.8.8.1">8.8.1.</a>&nbsp;<a href="##weak.and.strong.validators">Weak versus Strong</a></h4><div id="rfc.section.8.8.1.p.1"><p>Validators come in two flavors: strong or weak. Weak validators are easy to generate but are far less useful for comparisons. Strong validators are ideal for comparisons but can be very difficult (and occasionally impossible) to generate efficiently. Rather than impose that all forms of resource adhere to the same strength of validator, HTTP exposes the type of validator in use and imposes restrictions on when weak validators can be used as preconditions.</p></div><div id="rfc.section.8.8.1.p.2"><p>A <dfn>strong validator</dfn> is representation metadata that changes value whenever a change occurs to the representation data that would be observable in the content of a <a href="##status.200" class="smpl">200 (OK)</a> response to GET.</p></div><div id="rfc.section.8.8.1.p.3"><p>A strong validator might change for reasons other than a change to the representation data, such as when a semantically significant part of the representation metadata is changed (e.g., <a href="##field.content-type" class="smpl">Content-Type</a>), but it is in the best interests of the origin server to only change the value when it is necessary to invalidate the stored responses held by remote caches and authoring tools.</p></div><div id="rfc.section.8.8.1.p.4"><p>Cache entries might persist for arbitrarily long periods, regardless of expiration times. Thus, a cache might attempt to validate an entry using a validator that it obtained in the distant past. A strong validator is unique across all versions of all representations associated with a particular resource over time. However, there is no implication of uniqueness across representations of different resources (i.e., the same strong validator might be in use for representations of multiple resources at the same time and does not imply that those representations are equivalent).</p></div><div id="rfc.section.8.8.1.p.5"><p>There are a variety of strong validators used in practice. The best are based on strict revision control, wherein each change to a representation always results in a unique node name and revision identifier being assigned before the representation is made accessible to GET. A collision-resistant hash function applied to the representation data is also sufficient if the data is available prior to the response header fields being sent and the digest does not need to be recalculated every time a validation request is received. However, if a resource has distinct representations that differ only in their metadata, such as might occur with content negotiation over media types that happen to share the same data format, then the origin server needs to incorporate additional information in the validator to distinguish those representations.</p></div><div id="rfc.section.8.8.1.p.6"><p>In contrast, a <dfn>weak validator</dfn> is representation metadata that might not change for every change to the representation data. This weakness might be due to limitations in how the value is calculated (e.g., clock resolution), an inability to ensure uniqueness for all possible representations of the resource, or a desire of the resource owner to group representations by some self-determined set of equivalency rather than unique sequences of data.</p></div><div id="rfc.section.8.8.1.p.7"><p>An origin server <em class="bcp14">SHOULD</em> change a weak entity tag whenever it considers prior representations to be unacceptable as a substitute for the current representation. In other words, a weak entity tag ought to change whenever the origin server wants caches to invalidate old responses.</p></div><div id="rfc.section.8.8.1.p.8"><p>For example, the representation of a weather report that changes in content every second, based on dynamic measurements, might be grouped into sets of equivalent representations (from the origin server's perspective) with the same weak validator in order to allow cached representations to be valid for a reasonable period of time (perhaps adjusted dynamically based on server load or weather quality). Likewise, a representation's modification time, if defined with only one-second resolution, might be a weak validator if it is possible for the representation to be modified twice during a single second and retrieved between those modifications.</p></div><div id="rfc.section.8.8.1.p.9"><p>Likewise, a validator is weak if it is shared by two or more representations of a given resource at the same time, unless those representations have identical representation data. For example, if the origin server sends the same validator for a representation with a gzip content coding applied as it does for a representation with no content coding, then that validator is weak. However, two simultaneous representations might share the same strong validator if they differ only in the representation metadata, such as when two different media types are available for the same representation data.</p></div><div id="rfc.section.8.8.1.p.10"><p>Strong validators are usable for all conditional requests, including cache validation, partial content ranges, and "lost update" avoidance. Weak validators are only usable when the client does not require exact equality with previously obtained representation data, such as when validating a cache entry or limiting a web traversal to recent changes.</p></div></section><section id="field.last-modified"><h4 id="rfc.section.8.8.2"><a href="##rfc.section.8.8.2">8.8.2.</a>&nbsp;<a href="##field.last-modified">Last-Modified</a></h4><div id="rfc.section.8.8.2.p.1"><p>The "Last-Modified" header field in a response provides a timestamp indicating the date and time at which the origin server believes the <a href="##selected.representation" class="smpl">selected representation</a> was last modified, as determined at the conclusion of handling the request.</p></div><div id="rfc.section.8.8.2.p.2"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.72"></span><span class="pln">  </span><a href="##field.last-modified" class="smpl"><span class="typ">Last-Modified</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><a href="##http.date" class="smpl"><span class="typ">HTTP-date</span></a>
</pre></div><div id="rfc.section.8.8.2.p.3"><p>An example of its use is</p></div><div id="rfc.section.8.8.2.p.4"><pre class="text">Last-Modified: Tue, 15 Nov 1994 12:45:26 GMT
</pre></div><section id="lastmod.generation"><h5 id="rfc.section.8.8.2.1"><a href="##rfc.section.8.8.2.1">8.8.2.1.</a>&nbsp;<a href="##lastmod.generation">Generation</a></h5><div id="rfc.section.8.8.2.1.p.1"><p>An origin server <em class="bcp14">SHOULD</em> send Last-Modified for any selected representation for which a last modification date can be reasonably and consistently determined, since its use in conditional requests and evaluating cache freshness (<a href="##CACHING" id="rfc.xref.CACHING.10"><cite title="HTTP Caching">[CACHING]</cite></a>) can substantially reduce unnecessary transfers and significantly improve service availability and scalability.</p></div><div id="rfc.section.8.8.2.1.p.2"><p>A representation is typically the sum of many parts behind the resource interface. The last-modified time would usually be the most recent time that any of those parts were changed. How that value is determined for any given resource is an implementation detail beyond the scope of this specification.</p></div><div id="rfc.section.8.8.2.1.p.3"><p>An origin server <em class="bcp14">SHOULD</em> obtain the Last-Modified value of the representation as close as possible to the time that it generates the <a href="##field.date" class="smpl">Date</a> field value for its response. This allows a recipient to make an accurate assessment of the representation's modification time, especially if the representation changes near the time that the response is generated.</p></div><div id="rfc.section.8.8.2.1.p.4"><p>An origin server with a clock (as defined in <a href="##http.date" title="Date/Time Formats">Section 5.6.7</a>) <em class="bcp14">MUST NOT</em> generate a Last-Modified date that is later than the server's time of message origination (<a href="##field.date" class="smpl">Date</a>, <a href="##field.date" id="rfc.xref.field.date.3" title="Date">Section 6.6.1</a>). If the last modification time is derived from implementation-specific metadata that evaluates to some time in the future, according to the origin server's clock, then the origin server <em class="bcp14">MUST</em> replace that value with the message origination date. This prevents a future modification date from having an adverse impact on cache validation.</p></div><div id="rfc.section.8.8.2.1.p.5"><p>An origin server without a clock <em class="bcp14">MUST NOT</em> generate a Last-Modified date for a response unless that date value was assigned to the resource by some other system (presumably one with a clock).</p></div></section><section id="lastmod.comparison"><h5 id="rfc.section.8.8.2.2"><a href="##rfc.section.8.8.2.2">8.8.2.2.</a>&nbsp;<a href="##lastmod.comparison">Comparison</a></h5><div id="rfc.section.8.8.2.2.p.1" class="avoidbreakafter"><p>A Last-Modified time, when used as a validator in a request, is implicitly weak unless it is possible to deduce that it is strong, using the following rules:</p></div><div id="rfc.section.8.8.2.2.p.2"><ul><li>The validator is being compared by an origin server to the actual current validator for the representation and,</li><li>That origin server reliably knows that the associated representation did not change twice during the second covered by the presented validator;</li></ul></div><div id="rfc.section.8.8.2.2.p.3"><p>or</p></div><div id="rfc.section.8.8.2.2.p.4"><ul><li>The validator is about to be used by a client in an <a href="##field.if-modified-since" class="smpl">If-Modified-Since</a>, <a href="##field.if-unmodified-since" class="smpl">If-Unmodified-Since</a>, or <a href="##field.if-range" class="smpl">If-Range</a> header field, because the client has a cache entry for the associated representation, and</li><li>That cache entry includes a <a href="##field.date" class="smpl">Date</a> value which is at least one second after the Last-Modified value and the client has reason to believe that they were generated by the same clock or that there is enough difference between the Last-Modified and Date values to make clock synchronization issues unlikely;</li></ul></div><div id="rfc.section.8.8.2.2.p.5"><p>or</p></div><div id="rfc.section.8.8.2.2.p.6"><ul><li>The validator is being compared by an intermediate cache to the validator stored in its cache entry for the representation, and</li><li>That cache entry includes a <a href="##field.date" class="smpl">Date</a> value which is at least one second after the Last-Modified value and the cache has reason to believe that they were generated by the same clock or that there is enough difference between the Last-Modified and Date values to make clock synchronization issues unlikely.</li></ul></div><div id="rfc.section.8.8.2.2.p.7"><p>This method relies on the fact that if two different responses were sent by the origin server during the same second, but both had the same Last-Modified time, then at least one of those responses would have a <a href="##field.date" class="smpl">Date</a> value equal to its Last-Modified time.</p></div></section></section><section id="field.etag"><h4 id="rfc.section.8.8.3"><a href="##rfc.section.8.8.3">8.8.3.</a>&nbsp;<a href="##field.etag">ETag</a></h4><div id="rfc.section.8.8.3.p.1"><p>The "ETag" field in a response provides the current entity tag for the <a href="##selected.representation" class="smpl">selected representation</a>, as determined at the conclusion of handling the request. An entity tag is an opaque validator for differentiating between multiple representations of the same resource, regardless of whether those multiple representations are due to resource state changes over time, content negotiation resulting in multiple representations being valid at the same time, or both. An entity tag consists of an opaque quoted string, possibly prefixed by a weakness indicator.</p></div><div id="rfc.section.8.8.3.p.2"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.73"></span><span id="rfc.iref.g.74"></span><span id="rfc.iref.g.75"></span><span id="rfc.iref.g.76"></span><span id="rfc.iref.g.77"></span><span class="pln">  </span><a href="##field.etag" class="smpl"><span class="typ">ETag</span></a><span class="pln">       </span><span class="pun">=</span><span class="pln"> </span><a href="##field.etag" class="smpl"><span class="typ">entity-tag</span></a><span class="pln">

  </span><a href="##field.etag" class="smpl"><span class="typ">entity-tag</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="pun">[</span><span class="pln"> </span><a href="##field.etag" class="smpl"><span class="typ">weak</span></a><span class="pln"> </span><span class="pun">]</span><span class="pln"> </span><a href="##field.etag" class="smpl"><span class="typ">opaque-tag</span></a><span class="pln">
  </span><a href="##field.etag" class="smpl"><span class="typ">weak</span></a><span class="pln">       </span><span class="pun">=</span><span class="pln"> </span><span class="str">%s"W/"</span><span class="pln">
  </span><a href="##field.etag" class="smpl"><span class="typ">opaque-tag</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><a href="##core.rules" class="smpl"><span class="typ">DQUOTE</span></a><span class="pln"> </span><span class="pun">*</span><a href="##field.etag" class="smpl"><span class="typ">etagc</span></a><span class="pln"> </span><a href="##core.rules" class="smpl"><span class="typ">DQUOTE</span></a><span class="pln">
  </span><a href="##field.etag" class="smpl"><span class="typ">etagc</span></a><span class="pln">      </span><span class="pun">=</span><span class="pln"> </span><span class="lit">%x21</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="lit">%x23-7E</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><a href="##fields.values" class="smpl"><span class="typ">obs-text</span></a><span class="pln">
             </span><span class="com">; </span><a href="##core.rules" class="smpl"><span class="com">VCHAR</span></a><span class="com"> except double quotes, plus obs-text</span></pre></div><div id="rfc.section.8.8.3.p.3"><aside><div id="rfc.section.8.8.3.p.3.1"><p><b>Note:</b> Previously, opaque-tag was defined to be a quoted-string (<a href="##RFC2616" id="rfc.xref.RFC2616.2"><cite title="Hypertext Transfer Protocol -- HTTP/1.1">[RFC2616]</cite></a>, <a href="https://www.rfc-editor.org/rfc/rfc2616.html#section-3.11">Section 3.11</a>); thus, some recipients might perform backslash unescaping. Servers therefore ought to avoid backslash characters in entity tags.</p></div></aside></div><div id="rfc.section.8.8.3.p.4"><p>An entity tag can be more reliable for validation than a modification date in situations where it is inconvenient to store modification dates, where the one-second resolution of HTTP-date values is not sufficient, or where modification dates are not consistently maintained.</p></div><div id="rfc.section.8.8.3.p.5" class="avoidbreakafter"><p>Examples:</p></div><div id="rfc.section.8.8.3.p.6"><pre class="text">ETag: "xyzzy"
ETag: W/"xyzzy"
ETag: ""
</pre></div><div id="rfc.section.8.8.3.p.7"><p>An entity tag can be either a weak or strong validator, with strong being the default. If an origin server provides an entity tag for a representation and the generation of that entity tag does not satisfy all of the characteristics of a strong validator (<a href="##weak.and.strong.validators" title="Weak versus Strong">Section 8.8.1</a>), then the origin server <em class="bcp14">MUST</em> mark the entity tag as weak by prefixing its opaque value with "W/" (case-sensitive).</p></div><div id="rfc.section.8.8.3.p.8"><p>A sender <em class="bcp14">MAY</em> send the ETag field in a trailer section (see <a href="##trailer.fields" title="Trailer Fields">Section 6.5</a>). However, since trailers are often ignored, it is preferable to send ETag as a header field unless the entity tag is generated while sending the content.</p></div><section id="entity.tag.generation"><h5 id="rfc.section.8.8.3.1"><a href="##rfc.section.8.8.3.1">8.8.3.1.</a>&nbsp;<a href="##entity.tag.generation">Generation</a></h5><div id="rfc.section.8.8.3.1.p.1"><p>The principle behind entity tags is that only the service author knows the implementation of a resource well enough to select the most accurate and efficient validation mechanism for that resource, and that any such mechanism can be mapped to a simple sequence of octets for easy comparison. Since the value is opaque, there is no need for the client to be aware of how each entity tag is constructed.</p></div><div id="rfc.section.8.8.3.1.p.2"><p>For example, a resource that has implementation-specific versioning applied to all changes might use an internal revision number, perhaps combined with a variance identifier for content negotiation, to accurately differentiate between representations. Other implementations might use a collision-resistant hash of representation content, a combination of various file attributes, or a modification timestamp that has sub-second resolution.</p></div><div id="rfc.section.8.8.3.1.p.3"><p>An origin server <em class="bcp14">SHOULD</em> send an ETag for any selected representation for which detection of changes can be reasonably and consistently determined, since the entity tag's use in conditional requests and evaluating cache freshness (<a href="##CACHING" id="rfc.xref.CACHING.11"><cite title="HTTP Caching">[CACHING]</cite></a>) can substantially reduce unnecessary transfers and significantly improve service availability, scalability, and reliability.</p></div></section><section id="entity.tag.comparison"><h5 id="rfc.section.8.8.3.2"><a href="##rfc.section.8.8.3.2">8.8.3.2.</a>&nbsp;<a href="##entity.tag.comparison">Comparison</a></h5><div id="rfc.section.8.8.3.2.p.1" class="avoidbreakafter"><p>There are two entity tag comparison functions, depending on whether or not the comparison context allows the use of weak validators:</p></div><div id="rfc.section.8.8.3.2.p.2"><dl><dt><dfn>Strong comparison</dfn>:</dt><dd>two entity tags are equivalent if both are not weak and their opaque-tags match character-by-character.</dd><dt><dfn>Weak comparison</dfn>:</dt><dd>two entity tags are equivalent if their opaque-tags match character-by-character, regardless of either or both being tagged as "weak".</dd></dl></div><div id="rfc.section.8.8.3.2.p.3" class="avoidbreakafter"><p>The example below shows the results for a set of entity tag pairs and both the weak and strong comparison function results:</p></div><div class="table table-condensed table-striped"><table class="v3 tleft"><caption>Table 3</caption><thead><tr><th class="text-left">ETag 1</th><th class="text-left">ETag 2</th><th class="text-left">Strong Comparison</th><th class="text-left">Weak Comparison</th></tr></thead><tbody><tr><td class="text-left">W/"1"</td><td class="text-left">W/"1"</td><td class="text-left">no match</td><td class="text-left">match</td></tr><tr><td class="text-left">W/"1"</td><td class="text-left">W/"2"</td><td class="text-left">no match</td><td class="text-left">no match</td></tr><tr><td class="text-left">W/"1"</td><td class="text-left">"1"</td><td class="text-left">no match</td><td class="text-left">match</td></tr><tr><td class="text-left">"1"</td><td class="text-left">"1"</td><td class="text-left">match</td><td class="text-left">match</td></tr></tbody></table></div></section><section id="example.entity.tag.vs.conneg"><h5 id="rfc.section.8.8.3.3"><a href="##rfc.section.8.8.3.3">8.8.3.3.</a>&nbsp;<a href="##example.entity.tag.vs.conneg">Example: Entity Tags Varying on Content-Negotiated Resources</a></h5><div id="rfc.section.8.8.3.3.p.1" class="avoidbreakafter"><p>Consider a resource that is subject to content negotiation (<a href="##content.negotiation" title="Content Negotiation">Section 12</a>), and where the representations sent in response to a GET request vary based on the <a href="##field.accept-encoding" class="smpl">Accept-Encoding</a> request header field (<a href="##field.accept-encoding" id="rfc.xref.field.accept-encoding.2" title="Accept-Encoding">Section 12.5.3</a>):</p></div><div id="rfc.section.8.8.3.3.p.2" class="avoidbreakafter"><p>&gt;&gt; Request:</p></div><div id="rfc.section.8.8.3.3.p.3"><pre class="text">GET /index HTTP/1.1
Host: www.example.com
Accept-Encoding: gzip

</pre></div><div id="rfc.section.8.8.3.3.p.4" class="avoidbreakafter"><p>In this case, the response might or might not use the gzip content coding. If it does not, the response might look like:</p></div><div id="rfc.section.8.8.3.3.p.5" class="avoidbreakafter"><p>&gt;&gt; Response:</p></div><div id="rfc.section.8.8.3.3.p.6"><pre class="text">HTTP/1.1 200 OK
Date: Fri, 26 Mar 2010 00:05:00 GMT
ETag: "123-a"
Content-Length: 70
Vary: Accept-Encoding
Content-Type: text/plain

<span id="exbody2">Hello World!
Hello World!
Hello World!
Hello World!
Hello World!
</span></pre></div><div id="rfc.section.8.8.3.3.p.7" class="avoidbreakafter"><p>An alternative representation that does use gzip content coding would be:</p></div><div id="rfc.section.8.8.3.3.p.8" class="avoidbreakafter"><p>&gt;&gt; Response:</p></div><div id="rfc.section.8.8.3.3.p.9"><pre class="text">HTTP/1.1 200 OK
Date: Fri, 26 Mar 2010 00:05:00 GMT
ETag: "123-b"
Content-Length: 43
Vary: Accept-Encoding
Content-Type: text/plain
Content-Encoding: gzip

<em>...binary data...</em></pre></div><div id="rfc.section.8.8.3.3.p.10"><aside><div id="rfc.section.8.8.3.3.p.10.1"><p><b>Note:</b> Content codings are a property of the representation data, so a strong entity tag for a content-encoded representation has to be distinct from the entity tag of an unencoded representation to prevent potential conflicts during cache updates and range requests. In contrast, transfer codings (<a href="https://httpwg.org/specs/rfc9112.html#transfer.codings" title="Transfer Codings">Section 7</a> of <a href="##HTTP11" id="rfc.xref.HTTP11.17"><cite title="HTTP/1.1">[HTTP/1.1]</cite></a>) apply only during message transfer and do not result in distinct entity tags.</p></div></aside></div></section></section></section></section><section id="methods"><h2 id="rfc.section.9"><a href="##rfc.section.9">9.</a>&nbsp;<a href="##methods">Methods</a></h2><section id="method.overview"><h3 id="rfc.section.9.1"><a href="##rfc.section.9.1">9.1.</a>&nbsp;<a href="##method.overview">Overview</a></h3><div id="rfc.section.9.1.p.1"><p>The request method token is the primary source of request semantics; it indicates the purpose for which the client has made this request and what is expected by the client as a successful result.</p></div><div id="rfc.section.9.1.p.2"><p>The request method's semantics might be further specialized by the semantics of some header fields when present in a request if those additional semantics do not conflict with the method. For example, a client can send conditional request header fields (<a href="##preconditions" title="Preconditions">Section 13.1</a>) to make the requested action conditional on the current state of the target resource.</p></div><div id="rfc.section.9.1.p.3"><p>HTTP is designed to be usable as an interface to distributed object systems. The request method invokes an action to be applied to a <a href="##target.resource" class="smpl">target resource</a> in much the same way that a remote method invocation can be sent to an identified object.</p></div><div id="rfc.section.9.1.p.4"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.78"></span><span class="pln">  </span><a href="##method.overview" class="smpl"><span class="typ">method</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><a href="##rule.token.separators" class="smpl"><span class="typ">token</span></a>
</pre></div><div id="rfc.section.9.1.p.5"><p>The method token is case-sensitive because it might be used as a gateway to object-based systems with case-sensitive method names. By convention, standardized methods are defined in all-uppercase US-ASCII letters.</p></div><div id="rfc.section.9.1.p.6"><p>Unlike distributed objects, the standardized request methods in HTTP are not resource-specific, since uniform interfaces provide for better visibility and reuse in network-based systems <a href="##REST" id="rfc.xref.REST.2"><cite title="Architectural Styles and the Design of Network-based Software Architectures">[REST]</cite></a>. Once defined, a standardized method ought to have the same semantics when applied to any resource, though each resource determines for itself whether those semantics are implemented or allowed.</p></div><div id="rfc.section.9.1.p.7"><p>This specification defines a number of standardized methods that are commonly used in HTTP, as outlined by the following table.</p></div><div class="table table-condensed table-striped" id="table.of.methods"><table class="v3 tleft"><caption>Table 4</caption><thead><tr><th class="text-left">Method Name</th><th class="text-left">Description</th><th class="text-left">Section</th></tr></thead><tbody><tr><td class="text-left">GET</td><td class="text-left">Transfer a current representation of the target resource.</td><td class="text-left"><a href="##GET" id="rfc.xref.GET.6" title="GET">9.3.1</a></td></tr><tr><td class="text-left">HEAD</td><td class="text-left">Same as GET, but do not transfer the response content.</td><td class="text-left"><a href="##HEAD" id="rfc.xref.HEAD.4" title="HEAD">9.3.2</a></td></tr><tr><td class="text-left">POST</td><td class="text-left">Perform resource-specific processing on the request content.</td><td class="text-left"><a href="##POST" id="rfc.xref.POST.3" title="POST">9.3.3</a></td></tr><tr><td class="text-left">PUT</td><td class="text-left">Replace all current representations of the target resource with the request content.</td><td class="text-left"><a href="##PUT" id="rfc.xref.PUT.3" title="PUT">9.3.4</a></td></tr><tr><td class="text-left">DELETE</td><td class="text-left">Remove all current representations of the target resource.</td><td class="text-left"><a href="##DELETE" id="rfc.xref.DELETE.1" title="DELETE">9.3.5</a></td></tr><tr><td class="text-left">CONNECT</td><td class="text-left">Establish a tunnel to the server identified by the target resource.</td><td class="text-left"><a href="##CONNECT" id="rfc.xref.CONNECT.5" title="CONNECT">9.3.6</a></td></tr><tr><td class="text-left">OPTIONS</td><td class="text-left">Describe the communication options for the target resource.</td><td class="text-left"><a href="##OPTIONS" id="rfc.xref.OPTIONS.3" title="OPTIONS">9.3.7</a></td></tr><tr><td class="text-left">TRACE</td><td class="text-left">Perform a message loop-back test along the path to the target resource.</td><td class="text-left"><a href="##TRACE" id="rfc.xref.TRACE.2" title="TRACE">9.3.8</a></td></tr></tbody></table></div><div id="rfc.section.9.1.p.8"><p>All general-purpose servers <em class="bcp14">MUST</em> support the methods GET and HEAD. All other methods are <em class="bcp14">OPTIONAL</em>.</p></div><div id="rfc.section.9.1.p.9"><p>The set of methods allowed by a target resource can be listed in an <a href="##field.allow" class="smpl">Allow</a> header field (<a href="##field.allow" id="rfc.xref.field.allow.1" title="Allow">Section 10.2.1</a>). However, the set of allowed methods can change dynamically. An origin server that receives a request method that is unrecognized or not implemented <em class="bcp14">SHOULD</em> respond with the <a href="##status.501" class="smpl">501 (Not Implemented)</a> status code. An origin server that receives a request method that is recognized and implemented, but not allowed for the target resource, <em class="bcp14">SHOULD</em> respond with the <a href="##status.405" class="smpl">405 (Method Not Allowed)</a> status code.</p></div><div id="rfc.section.9.1.p.10"><p>Additional methods, outside the scope of this specification, have been specified for use in HTTP. All such methods ought to be registered within the "Hypertext Transfer Protocol (HTTP) Method Registry", as described in <a href="##method.extensibility" title="Method Extensibility">Section 16.1</a>.</p></div></section><section id="method.properties"><h3 id="rfc.section.9.2"><a href="##rfc.section.9.2">9.2.</a>&nbsp;<a href="##method.properties">Common Method Properties</a></h3><section id="safe.methods"><h4 id="rfc.section.9.2.1"><a href="##rfc.section.9.2.1">9.2.1.</a>&nbsp;<a href="##safe.methods">Safe Methods</a></h4><div id="rfc.section.9.2.1.p.1"><p>Request methods are considered <dfn>safe</dfn> if their defined semantics are essentially read-only; i.e., the client does not request, and does not expect, any state change on the origin server as a result of applying a safe method to a target resource. Likewise, reasonable use of a safe method is not expected to cause any harm, loss of property, or unusual burden on the origin server.</p></div><div id="rfc.section.9.2.1.p.2"><p>This definition of safe methods does not prevent an implementation from including behavior that is potentially harmful, that is not entirely read-only, or that causes side effects while invoking a safe method. What is important, however, is that the client did not request that additional behavior and cannot be held accountable for it. For example, most servers append request information to access log files at the completion of every response, regardless of the method, and that is considered safe even though the log storage might become full and cause the server to fail. Likewise, a safe request initiated by selecting an advertisement on the Web will often have the side effect of charging an advertising account.</p></div><div id="rfc.section.9.2.1.p.3"><p>Of the request methods defined by this specification, the <a href="##GET" class="smpl" id="rfc.extref.g.5">GET</a>, <a href="##HEAD" class="smpl" id="rfc.extref.h.21">HEAD</a>, <a href="##OPTIONS" class="smpl" id="rfc.extref.o.16">OPTIONS</a>, and <a href="##TRACE" class="smpl" id="rfc.extref.t.35">TRACE</a> methods are defined to be safe.</p></div><div id="rfc.section.9.2.1.p.4"><p>The purpose of distinguishing between safe and unsafe methods is to allow automated retrieval processes (spiders) and cache performance optimization (pre-fetching) to work without fear of causing harm. In addition, it allows a user agent to apply appropriate constraints on the automated use of unsafe methods when processing potentially untrusted content.</p></div><div id="rfc.section.9.2.1.p.5"><p>A user agent <em class="bcp14">SHOULD</em> distinguish between safe and unsafe methods when presenting potential actions to a user, such that the user can be made aware of an unsafe action before it is requested.</p></div><div id="rfc.section.9.2.1.p.6"><p>When a resource is constructed such that parameters within the target URI have the effect of selecting an action, it is the resource owner's responsibility to ensure that the action is consistent with the request method semantics. For example, it is common for Web-based content editing software to use actions within query parameters, such as "page?do=delete". If the purpose of such a resource is to perform an unsafe action, then the resource owner <em class="bcp14">MUST</em> disable or disallow that action when it is accessed using a safe request method. Failure to do so will result in unfortunate side effects when automated processes perform a GET on every URI reference for the sake of link maintenance, pre-fetching, building a search index, etc.</p></div></section><section id="idempotent.methods"><h4 id="rfc.section.9.2.2"><a href="##rfc.section.9.2.2">9.2.2.</a>&nbsp;<a href="##idempotent.methods">Idempotent Methods</a></h4><div id="rfc.section.9.2.2.p.1"><p>A request method is considered <dfn id="idempotent">idempotent</dfn> if the intended effect on the server of multiple identical requests with that method is the same as the effect for a single such request. Of the request methods defined by this specification, <a href="##PUT" class="smpl" id="rfc.extref.p.28">PUT</a>, <a href="##DELETE" class="smpl" id="rfc.extref.d.39">DELETE</a>, and safe request methods are idempotent.</p></div><div id="rfc.section.9.2.2.p.2"><p>Like the definition of safe, the idempotent property only applies to what has been requested by the user; a server is free to log each request separately, retain a revision control history, or implement other non-idempotent side effects for each idempotent request.</p></div><div id="rfc.section.9.2.2.p.3"><p>Idempotent methods are distinguished because the request can be repeated automatically if a communication failure occurs before the client is able to read the server's response. For example, if a client sends a PUT request and the underlying connection is closed before any response is received, then the client can establish a new connection and retry the idempotent request. It knows that repeating the request will have the same intended effect, even if the original request succeeded, though the response might differ.</p></div><div id="rfc.section.9.2.2.p.4"><p>A client <em class="bcp14">SHOULD NOT</em> automatically retry a request with a non-idempotent method unless it has some means to know that the request semantics are actually idempotent, regardless of the method, or some means to detect that the original request was never applied.</p></div><div id="rfc.section.9.2.2.p.5"><p>For example, a user agent can repeat a POST request automatically if it knows (through design or configuration) that the request is safe for that resource. Likewise, a user agent designed specifically to operate on a version control repository might be able to recover from partial failure conditions by checking the target resource revision(s) after a failed connection, reverting or fixing any changes that were partially applied, and then automatically retrying the requests that failed.</p></div><div id="rfc.section.9.2.2.p.6"><p>Some clients take a riskier approach and attempt to guess when an automatic retry is possible. For example, a client might automatically retry a POST request if the underlying transport connection closed before any part of a response is received, particularly if an idle persistent connection was used.</p></div><div id="rfc.section.9.2.2.p.7"><p>A proxy <em class="bcp14">MUST NOT</em> automatically retry non-idempotent requests. A client <em class="bcp14">SHOULD NOT</em> automatically retry a failed automatic retry.</p></div></section><section id="cacheable.methods"><h4 id="rfc.section.9.2.3"><a href="##rfc.section.9.2.3">9.2.3.</a>&nbsp;<a href="##cacheable.methods">Methods and Caching</a></h4><div id="rfc.section.9.2.3.p.1"><p>For a cache to store and use a response, the associated method needs to explicitly allow caching and to detail under what conditions a response can be used to satisfy subsequent requests; a method definition that does not do so cannot be cached. For additional requirements see <a href="##CACHING" id="rfc.xref.CACHING.12"><cite title="HTTP Caching">[CACHING]</cite></a>.</p></div><div id="rfc.section.9.2.3.p.2"><p>This specification defines caching semantics for GET, HEAD, and POST, although the overwhelming majority of cache implementations only support GET and HEAD.</p></div></section></section><section id="method.definitions"><h3 id="rfc.section.9.3"><a href="##rfc.section.9.3">9.3.</a>&nbsp;<a href="##method.definitions">Method Definitions</a></h3><section id="GET"><h4 id="rfc.section.9.3.1"><a href="##rfc.section.9.3.1">9.3.1.</a>&nbsp;<a href="##GET">GET</a></h4><div id="rfc.iref.g.79"></div><div id="rfc.iref.m.1"></div><div id="rfc.section.9.3.1.p.1"><p>The GET method requests transfer of a current <a href="##selected.representation" class="smpl">selected representation</a> for the <a href="##target.resource" class="smpl">target resource</a>. A successful response reflects the quality of "sameness" identified by the target URI (<a href="https://www.rfc-editor.org/rfc/rfc3986.html#section-1.2.2">Section 1.2.2</a> of <a href="##URI" id="rfc.xref.URI.28"><cite title="Uniform Resource Identifier (URI): Generic Syntax">[URI]</cite></a>). Hence, retrieving identifiable information via HTTP is usually performed by making a GET request on an identifier associated with the potential for providing that information in a <a href="##status.200" class="smpl">200 (OK)</a> response.</p></div><div id="rfc.section.9.3.1.p.2"><p>GET is the primary mechanism of information retrieval and the focus of almost all performance optimizations. Applications that produce a URI for each important resource can benefit from those optimizations while enabling their reuse by other applications, creating a network effect that promotes further expansion of the Web.</p></div><div id="rfc.section.9.3.1.p.3"><p>It is tempting to think of resource identifiers as remote file system pathnames and of representations as being a copy of the contents of such files. In fact, that is how many resources are implemented (see <a href="##attack.pathname" title="Attacks Based on File and Path Names">Section 17.3</a> for related security considerations). However, there are no such limitations in practice.</p></div><div id="rfc.section.9.3.1.p.4"><p>The HTTP interface for a resource is just as likely to be implemented as a tree of content objects, a programmatic view on various database records, or a gateway to other information systems. Even when the URI mapping mechanism is tied to a file system, an origin server might be configured to execute the files with the request as input and send the output as the representation rather than transfer the files directly. Regardless, only the origin server needs to know how each resource identifier corresponds to an implementation and how that implementation manages to select and send a current representation of the target resource.</p></div><div id="rfc.section.9.3.1.p.5"><p>A client can alter the semantics of GET to be a "range request", requesting transfer of only some part(s) of the selected representation, by sending a <a href="##field.range" class="smpl">Range</a> header field in the request (<a href="##field.range" id="rfc.xref.field.range.1" title="Range">Section 14.2</a>).</p></div><div id="rfc.section.9.3.1.p.6"><p>Although request message framing is independent of the method used, content received in a GET request has no generally defined semantics, cannot alter the meaning or target of the request, and might lead some implementations to reject the request and close the connection because of its potential as a request smuggling attack (<a href="https://httpwg.org/specs/rfc9112.html#request.smuggling" title="Request Smuggling">Section 11.2</a> of <a href="##HTTP11" id="rfc.xref.HTTP11.18"><cite title="HTTP/1.1">[HTTP/1.1]</cite></a>). A client <em class="bcp14">SHOULD NOT</em> generate content in a GET request unless it is made directly to an origin server that has previously indicated, in or out of band, that such a request has a purpose and will be adequately supported. An origin server <em class="bcp14">SHOULD NOT</em> rely on private agreements to receive content, since participants in HTTP communication are often unaware of intermediaries along the request chain.</p></div><div id="rfc.section.9.3.1.p.7"><p>The response to a GET request is cacheable; a cache <em class="bcp14">MAY</em> use it to satisfy subsequent GET and HEAD requests unless otherwise indicated by the Cache-Control header field (<a href="https://httpwg.org/specs/rfc9111.html#field.cache-control" title="Cache-Control">Section 5.2</a> of <a href="##CACHING" id="rfc.xref.CACHING.13"><cite title="HTTP Caching">[CACHING]</cite></a>).</p></div><div id="rfc.section.9.3.1.p.8"><p>When information retrieval is performed with a mechanism that constructs a target URI from user-provided information, such as the query fields of a form using GET, potentially sensitive data might be provided that would not be appropriate for disclosure within a URI (see <a href="##sensitive.information.in.uris" title="Disclosure of Sensitive Information in URIs">Section 17.9</a>). In some cases, the data can be filtered or transformed such that it would not reveal such information. In others, particularly when there is no benefit from caching a response, using the POST method (<a href="##POST" id="rfc.xref.POST.4" title="POST">Section 9.3.3</a>) instead of GET can transmit such information in the request content rather than within the target URI.</p></div></section><section id="HEAD"><h4 id="rfc.section.9.3.2"><a href="##rfc.section.9.3.2">9.3.2.</a>&nbsp;<a href="##HEAD">HEAD</a></h4><div id="rfc.iref.h.1"></div><div id="rfc.iref.m.2"></div><div id="rfc.section.9.3.2.p.1"><p>The HEAD method is identical to GET except that the server <em class="bcp14">MUST NOT</em> send content in the response. HEAD is used to obtain metadata about the <a href="##selected.representation" class="smpl">selected representation</a> without transferring its representation data, often for the sake of testing hypertext links or finding recent modifications.</p></div><div id="rfc.section.9.3.2.p.2"><p>The server <em class="bcp14">SHOULD</em> send the same header fields in response to a HEAD request as it would have sent if the request method had been GET. However, a server <em class="bcp14">MAY</em> omit header fields for which a value is determined only while generating the content. For example, some servers buffer a dynamic response to GET until a minimum amount of data is generated so that they can more efficiently delimit small responses or make late decisions with regard to content selection. Such a response to GET might contain <a href="##field.content-length" class="smpl">Content-Length</a> and <a href="##field.vary" class="smpl">Vary</a> fields, for example, that are not generated within a HEAD response. These minor inconsistencies are considered preferable to generating and discarding the content for a HEAD request, since HEAD is usually requested for the sake of efficiency.</p></div><div id="rfc.section.9.3.2.p.3"><p>Although request message framing is independent of the method used, content received in a HEAD request has no generally defined semantics, cannot alter the meaning or target of the request, and might lead some implementations to reject the request and close the connection because of its potential as a request smuggling attack (<a href="https://httpwg.org/specs/rfc9112.html#request.smuggling" title="Request Smuggling">Section 11.2</a> of <a href="##HTTP11" id="rfc.xref.HTTP11.19"><cite title="HTTP/1.1">[HTTP/1.1]</cite></a>). A client <em class="bcp14">SHOULD NOT</em> generate content in a HEAD request unless it is made directly to an origin server that has previously indicated, in or out of band, that such a request has a purpose and will be adequately supported. An origin server <em class="bcp14">SHOULD NOT</em> rely on private agreements to receive content, since participants in HTTP communication are often unaware of intermediaries along the request chain.</p></div><div id="rfc.section.9.3.2.p.4"><p>The response to a HEAD request is cacheable; a cache <em class="bcp14">MAY</em> use it to satisfy subsequent HEAD requests unless otherwise indicated by the Cache-Control header field (<a href="https://httpwg.org/specs/rfc9111.html#field.cache-control" title="Cache-Control">Section 5.2</a> of <a href="##CACHING" id="rfc.xref.CACHING.14"><cite title="HTTP Caching">[CACHING]</cite></a>). A HEAD response might also affect previously cached responses to GET; see <a href="https://httpwg.org/specs/rfc9111.html#head.effects" title="Freshening Responses with HEAD">Section 4.3.5</a> of <a href="##CACHING" id="rfc.xref.CACHING.15"><cite title="HTTP Caching">[CACHING]</cite></a>.</p></div></section><section id="POST"><h4 id="rfc.section.9.3.3"><a href="##rfc.section.9.3.3">9.3.3.</a>&nbsp;<a href="##POST">POST</a></h4><div id="rfc.section.9.3.3.p.1" class="avoidbreakafter"><p>The POST method requests that the <a href="##target.resource" class="smpl">target resource</a> process the representation enclosed in the request according to the resource's own specific semantics. For example, POST is used for the following functions (among others):</p></div><div id="rfc.section.9.3.3.p.2"><ul><li>Providing a block of data, such as the fields entered into an HTML form, to a data-handling process;</li><li>Posting a message to a bulletin board, newsgroup, mailing list, blog, or similar group of articles;</li><li>Creating a new resource that has yet to be identified by the origin server; and</li><li>Appending data to a resource's existing representation(s).</li></ul></div><div id="rfc.section.9.3.3.p.3"><p>An origin server indicates response semantics by choosing an appropriate status code depending on the result of processing the POST request; almost all of the status codes defined by this specification could be received in a response to POST (the exceptions being <a href="##status.206" class="smpl">206 (Partial Content)</a>, <a href="##status.304" class="smpl">304 (Not Modified)</a>, and <a href="##status.416" class="smpl">416 (Range Not Satisfiable)</a>).</p></div><div id="rfc.section.9.3.3.p.4"><p>If one or more resources has been created on the origin server as a result of successfully processing a POST request, the origin server <em class="bcp14">SHOULD</em> send a <a href="##status.201" class="smpl">201 (Created)</a> response containing a <a href="##field.location" class="smpl">Location</a> header field that provides an identifier for the primary resource created (<a href="##field.location" id="rfc.xref.field.location.1" title="Location">Section 10.2.2</a>) and a representation that describes the status of the request while referring to the new resource(s).</p></div><div id="rfc.section.9.3.3.p.5"><p>Responses to POST requests are only cacheable when they include explicit freshness information (see <a href="https://httpwg.org/specs/rfc9111.html#calculating.freshness.lifetime" title="Calculating Freshness Lifetime">Section 4.2.1</a> of <a href="##CACHING" id="rfc.xref.CACHING.16"><cite title="HTTP Caching">[CACHING]</cite></a>) and a <a href="##field.content-location" class="smpl">Content-Location</a> header field that has the same value as the POST's target URI (<a href="##field.content-location" id="rfc.xref.field.content-location.1" title="Content-Location">Section 8.7</a>). A cached POST response can be reused to satisfy a later GET or HEAD request. In contrast, a POST request cannot be satisfied by a cached POST response because POST is potentially unsafe; see <a href="https://httpwg.org/specs/rfc9111.html#constructing.responses.from.caches" title="Constructing Responses from Caches">Section 4</a> of <a href="##CACHING" id="rfc.xref.CACHING.17"><cite title="HTTP Caching">[CACHING]</cite></a>.</p></div><div id="rfc.section.9.3.3.p.6"><p>If the result of processing a POST would be equivalent to a representation of an existing resource, an origin server <em class="bcp14">MAY</em> redirect the user agent to that resource by sending a <a href="##status.303" class="smpl">303 (See Other)</a> response with the existing resource's identifier in the <a href="##field.location" class="smpl">Location</a> field. This has the benefits of providing the user agent a resource identifier and transferring the representation via a method more amenable to shared caching, though at the cost of an extra request if the user agent does not already have the representation cached.</p></div></section><section id="PUT"><h4 id="rfc.section.9.3.4"><a href="##rfc.section.9.3.4">9.3.4.</a>&nbsp;<a href="##PUT">PUT</a></h4><div id="rfc.iref.p.2"></div><div id="rfc.iref.m.3"></div><div id="rfc.section.9.3.4.p.1"><p>The PUT method requests that the state of the <a href="##target.resource" class="smpl">target resource</a> be created or replaced with the state defined by the representation enclosed in the request message content. A successful PUT of a given representation would suggest that a subsequent GET on that same target resource will result in an equivalent representation being sent in a <a href="##status.200" class="smpl">200 (OK)</a> response. However, there is no guarantee that such a state change will be observable, since the target resource might be acted upon by other user agents in parallel, or might be subject to dynamic processing by the origin server, before any subsequent GET is received. A successful response only implies that the user agent's intent was achieved at the time of its processing by the origin server.</p></div><div id="rfc.section.9.3.4.p.2"><p>If the target resource does not have a current representation and the PUT successfully creates one, then the origin server <em class="bcp14">MUST</em> inform the user agent by sending a <a href="##status.201" class="smpl">201 (Created)</a> response. If the target resource does have a current representation and that representation is successfully modified in accordance with the state of the enclosed representation, then the origin server <em class="bcp14">MUST</em> send either a <a href="##status.200" class="smpl">200 (OK)</a> or a <a href="##status.204" class="smpl">204 (No Content)</a> response to indicate successful completion of the request.</p></div><div id="rfc.section.9.3.4.p.3"><p>An origin server <em class="bcp14">SHOULD</em> verify that the PUT representation is consistent with its configured constraints for the target resource. For example, if an origin server determines a resource's representation metadata based on the URI, then the origin server needs to ensure that the content received in a successful PUT request is consistent with that metadata. When a PUT representation is inconsistent with the target resource, the origin server <em class="bcp14">SHOULD</em> either make them consistent, by transforming the representation or changing the resource configuration, or respond with an appropriate error message containing sufficient information to explain why the representation is unsuitable. The <a href="##status.409" class="smpl">409 (Conflict)</a> or <a href="##status.415" class="smpl">415 (Unsupported Media Type)</a> status codes are suggested, with the latter being specific to constraints on <a href="##field.content-type" class="smpl">Content-Type</a> values.</p></div><div id="rfc.section.9.3.4.p.4" class="avoidbreakafter"><p>For example, if the target resource is configured to always have a <a href="##field.content-type" class="smpl">Content-Type</a> of "text/html" and the representation being PUT has a Content-Type of "image/jpeg", the origin server ought to do one of:</p></div><div id="rfc.section.9.3.4.p.5"><ol type="a"><li>reconfigure the target resource to reflect the new media type;</li><li>transform the PUT representation to a format consistent with that of the resource before saving it as the new resource state; or,</li><li>reject the request with a <a href="##status.415" class="smpl">415 (Unsupported Media Type)</a> response indicating that the target resource is limited to "text/html", perhaps including a link to a different resource that would be a suitable target for the new representation.</li></ol></div><div id="rfc.section.9.3.4.p.6"><p>HTTP does not define exactly how a PUT method affects the state of an origin server beyond what can be expressed by the intent of the user agent request and the semantics of the origin server response. It does not define what a resource might be, in any sense of that word, beyond the interface provided via HTTP. It does not define how resource state is "stored", nor how such storage might change as a result of a change in resource state, nor how the origin server translates resource state into representations. Generally speaking, all implementation details behind the resource interface are intentionally hidden by the server.</p></div><div id="rfc.section.9.3.4.p.7"><p>This extends to how header and trailer fields are stored; while common header fields like <a href="##field.content-type" class="smpl">Content-Type</a> will typically be stored and returned upon subsequent GET requests, header and trailer field handling is specific to the resource that received the request. As a result, an origin server <em class="bcp14">SHOULD</em> ignore unrecognized header and trailer fields received in a PUT request (i.e., not save them as part of the resource state).</p></div><div id="rfc.section.9.3.4.p.8"><p>An origin server <em class="bcp14">MUST NOT</em> send a validator field (<a href="##response.validator" title="Validator Fields">Section 8.8</a>), such as an <a href="##field.etag" class="smpl">ETag</a> or <a href="##field.last-modified" class="smpl">Last-Modified</a> field, in a successful response to PUT unless the request's representation data was saved without any transformation applied to the content (i.e., the resource's new representation data is identical to the content received in the PUT request) and the validator field value reflects the new representation. This requirement allows a user agent to know when the representation it sent (and retains in memory) is the result of the PUT, and thus it doesn't need to be retrieved again from the origin server. The new validator(s) received in the response can be used for future conditional requests in order to prevent accidental overwrites (<a href="##preconditions" title="Preconditions">Section 13.1</a>).</p></div><div id="rfc.section.9.3.4.p.9"><p>The fundamental difference between the POST and PUT methods is highlighted by the different intent for the enclosed representation. The target resource in a POST request is intended to handle the enclosed representation according to the resource's own semantics, whereas the enclosed representation in a PUT request is defined as replacing the state of the target resource. Hence, the intent of PUT is idempotent and visible to intermediaries, even though the exact effect is only known by the origin server.</p></div><div id="rfc.section.9.3.4.p.10"><p>Proper interpretation of a PUT request presumes that the user agent knows which target resource is desired. A service that selects a proper URI on behalf of the client, after receiving a state-changing request, <em class="bcp14">SHOULD</em> be implemented using the POST method rather than PUT. If the origin server will not make the requested PUT state change to the target resource and instead wishes to have it applied to a different resource, such as when the resource has been moved to a different URI, then the origin server <em class="bcp14">MUST</em> send an appropriate <a href="##status.3xx" class="smpl">3xx (Redirection)</a> response; the user agent <em class="bcp14">MAY</em> then make its own decision regarding whether or not to redirect the request.</p></div><div id="rfc.section.9.3.4.p.11"><p>A PUT request applied to the target resource can have side effects on other resources. For example, an article might have a URI for identifying "the current version" (a resource) that is separate from the URIs identifying each particular version (different resources that at one point shared the same state as the current version resource). A successful PUT request on "the current version" URI might therefore create a new version resource in addition to changing the state of the target resource, and might also cause links to be added between the related resources.</p></div><div id="rfc.section.9.3.4.p.12"><p>Some origin servers support use of the <a href="##field.content-range" class="smpl">Content-Range</a> header field (<a href="##field.content-range" id="rfc.xref.field.content-range.1" title="Content-Range">Section 14.4</a>) as a request modifier to perform a partial PUT, as described in <a href="##partial.PUT" title="Partial PUT">Section 14.5</a>.</p></div><div id="rfc.section.9.3.4.p.13"><p>Responses to the PUT method are not cacheable. If a successful PUT request passes through a cache that has one or more stored responses for the target URI, those stored responses will be invalidated (see <a href="https://httpwg.org/specs/rfc9111.html#invalidation" title="Invalidating Stored Responses">Section 4.4</a> of <a href="##CACHING" id="rfc.xref.CACHING.18"><cite title="HTTP Caching">[CACHING]</cite></a>).</p></div></section><section id="DELETE"><h4 id="rfc.section.9.3.5"><a href="##rfc.section.9.3.5">9.3.5.</a>&nbsp;<a href="##DELETE">DELETE</a></h4><div id="rfc.iref.d.3"></div><div id="rfc.iref.m.4"></div><div id="rfc.section.9.3.5.p.1"><p>The DELETE method requests that the origin server remove the association between the <a href="##target.resource" class="smpl">target resource</a> and its current functionality. In effect, this method is similar to the "rm" command in UNIX: it expresses a deletion operation on the URI mapping of the origin server rather than an expectation that the previously associated information be deleted.</p></div><div id="rfc.section.9.3.5.p.2"><p>If the target resource has one or more current representations, they might or might not be destroyed by the origin server, and the associated storage might or might not be reclaimed, depending entirely on the nature of the resource and its implementation by the origin server (which are beyond the scope of this specification). Likewise, other implementation aspects of a resource might need to be deactivated or archived as a result of a DELETE, such as database or gateway connections. In general, it is assumed that the origin server will only allow DELETE on resources for which it has a prescribed mechanism for accomplishing the deletion.</p></div><div id="rfc.section.9.3.5.p.3"><p>Relatively few resources allow the DELETE method — its primary use is for remote authoring environments, where the user has some direction regarding its effect. For example, a resource that was previously created using a PUT request, or identified via the Location header field after a <a href="##status.201" class="smpl">201 (Created)</a> response to a POST request, might allow a corresponding DELETE request to undo those actions. Similarly, custom user agent implementations that implement an authoring function, such as revision control clients using HTTP for remote operations, might use DELETE based on an assumption that the server's URI space has been crafted to correspond to a version repository.</p></div><div id="rfc.section.9.3.5.p.4"><p>If a DELETE method is successfully applied, the origin server <em class="bcp14">SHOULD</em> send</p></div><div id="rfc.section.9.3.5.p.5"><ul><li>a <a href="##status.202" class="smpl">202 (Accepted)</a> status code if the action will likely succeed but has not yet been enacted,</li><li>a <a href="##status.204" class="smpl">204 (No Content)</a> status code if the action has been enacted and no further information is to be supplied, or</li><li>a <a href="##status.200" class="smpl">200 (OK)</a> status code if the action has been enacted and the response message includes a representation describing the status.</li></ul></div><div id="rfc.section.9.3.5.p.6"><p>Although request message framing is independent of the method used, content received in a DELETE request has no generally defined semantics, cannot alter the meaning or target of the request, and might lead some implementations to reject the request and close the connection because of its potential as a request smuggling attack (<a href="https://httpwg.org/specs/rfc9112.html#request.smuggling" title="Request Smuggling">Section 11.2</a> of <a href="##HTTP11" id="rfc.xref.HTTP11.20"><cite title="HTTP/1.1">[HTTP/1.1]</cite></a>). A client <em class="bcp14">SHOULD NOT</em> generate content in a DELETE request unless it is made directly to an origin server that has previously indicated, in or out of band, that such a request has a purpose and will be adequately supported. An origin server <em class="bcp14">SHOULD NOT</em> rely on private agreements to receive content, since participants in HTTP communication are often unaware of intermediaries along the request chain.</p></div><div id="rfc.section.9.3.5.p.7"><p>Responses to the DELETE method are not cacheable. If a successful DELETE request passes through a cache that has one or more stored responses for the target URI, those stored responses will be invalidated (see <a href="https://httpwg.org/specs/rfc9111.html#invalidation" title="Invalidating Stored Responses">Section 4.4</a> of <a href="##CACHING" id="rfc.xref.CACHING.19"><cite title="HTTP Caching">[CACHING]</cite></a>).</p></div></section><section id="CONNECT"><h4 id="rfc.section.9.3.6"><a href="##rfc.section.9.3.6">9.3.6.</a>&nbsp;<a href="##CONNECT">CONNECT</a></h4><div id="rfc.section.9.3.6.p.1"><p>The CONNECT method requests that the recipient establish a tunnel to the destination origin server identified by the request target and, if successful, thereafter restrict its behavior to blind forwarding of data, in both directions, until the tunnel is closed. Tunnels are commonly used to create an end-to-end virtual connection, through one or more proxies, which can then be secured using TLS (Transport Layer Security, <a href="##TLS13" id="rfc.xref.TLS13.3"><cite title="The Transport Layer Security (TLS) Protocol Version 1.3">[TLS13]</cite></a>).</p></div><div id="rfc.section.9.3.6.p.2"><p>CONNECT uses a special form of request target, unique to this method, consisting of only the host and port number of the tunnel destination, separated by a colon. There is no default port; a client <em class="bcp14">MUST</em> send the port number even if the CONNECT request is based on a URI reference that contains an authority component with an elided port (<a href="##uri.references" title="URI References">Section 4.1</a>). For example,</p></div><div id="rfc.section.9.3.6.p.3"><pre class="text">CONNECT server.example.com:80 HTTP/1.1
Host: server.example.com

</pre></div><div id="rfc.section.9.3.6.p.4"><p>A server <em class="bcp14">MUST</em> reject a CONNECT request that targets an empty or invalid port number, typically by responding with a 400 (Bad Request) status code.</p></div><div id="rfc.section.9.3.6.p.5"><p>Because CONNECT changes the request/response nature of an HTTP connection, specific HTTP versions might have different ways of mapping its semantics into the protocol's wire format.</p></div><div id="rfc.section.9.3.6.p.6"><p>CONNECT is intended for use in requests to a proxy. The recipient can establish a tunnel either by directly connecting to the server identified by the request target or, if configured to use another proxy, by forwarding the CONNECT request to the next inbound proxy. An origin server <em class="bcp14">MAY</em> accept a CONNECT request, but most origin servers do not implement CONNECT.</p></div><div id="rfc.section.9.3.6.p.7"><p>Any <a href="##status.2xx" class="smpl">2xx (Successful)</a> response indicates that the sender (and all inbound proxies) will switch to tunnel mode immediately after the response header section; data received after that header section is from the server identified by the request target. Any response other than a successful response indicates that the tunnel has not yet been formed.</p></div><div id="rfc.section.9.3.6.p.8"><p>A tunnel is closed when a tunnel intermediary detects that either side has closed its connection: the intermediary <em class="bcp14">MUST</em> attempt to send any outstanding data that came from the closed side to the other side, close both connections, and then discard any remaining data left undelivered.</p></div><div id="rfc.section.9.3.6.p.9"><p>Proxy authentication might be used to establish the authority to create a tunnel. For example,</p></div><div id="rfc.section.9.3.6.p.10"><pre class="text">CONNECT server.example.com:443 HTTP/1.1
Host: server.example.com:443
Proxy-Authorization: basic aGVsbG86d29ybGQ=

</pre></div><div id="rfc.section.9.3.6.p.11"><p>There are significant risks in establishing a tunnel to arbitrary servers, particularly when the destination is a well-known or reserved TCP port that is not intended for Web traffic. For example, a CONNECT to "example.com:25" would suggest that the proxy connect to the reserved port for SMTP traffic; if allowed, that could trick the proxy into relaying spam email. Proxies that support CONNECT <em class="bcp14">SHOULD</em> restrict its use to a limited set of known ports or a configurable list of safe request targets.</p></div><div id="rfc.section.9.3.6.p.12"><p>A server <em class="bcp14">MUST NOT</em> send any <a href="https://httpwg.org/specs/rfc9112.html#field.transfer-encoding" class="smpl">Transfer-Encoding</a> or <a href="##field.content-length" class="smpl">Content-Length</a> header fields in a <a href="##status.2xx" class="smpl">2xx (Successful)</a> response to CONNECT. A client <em class="bcp14">MUST</em> ignore any Content-Length or Transfer-Encoding header fields received in a successful response to CONNECT.</p></div><div id="rfc.section.9.3.6.p.13"><p>A CONNECT request message does not have content. The interpretation of data sent after the header section of the CONNECT request message is specific to the version of HTTP in use.</p></div><div id="rfc.section.9.3.6.p.14"><p>Responses to the CONNECT method are not cacheable.</p></div></section><section id="OPTIONS"><h4 id="rfc.section.9.3.7"><a href="##rfc.section.9.3.7">9.3.7.</a>&nbsp;<a href="##OPTIONS">OPTIONS</a></h4><div id="rfc.iref.o.2"></div><div id="rfc.iref.m.5"></div><div id="rfc.section.9.3.7.p.1"><p>The OPTIONS method requests information about the communication options available for the target resource, at either the origin server or an intervening intermediary. This method allows a client to determine the options and/or requirements associated with a resource, or the capabilities of a server, without implying a resource action.</p></div><div id="rfc.section.9.3.7.p.2"><p>An OPTIONS request with an asterisk ("*") as the request target (<a href="##target.resource" title="Determining the Target Resource">Section 7.1</a>) applies to the server in general rather than to a specific resource. Since a server's communication options typically depend on the resource, the "*" request is only useful as a "ping" or "no-op" type of method; it does nothing beyond allowing the client to test the capabilities of the server. For example, this can be used to test a proxy for HTTP/1.1 conformance (or lack thereof).</p></div><div id="rfc.section.9.3.7.p.3"><p>If the request target is not an asterisk, the OPTIONS request applies to the options that are available when communicating with the target resource.</p></div><div id="rfc.section.9.3.7.p.4"><p>A server generating a successful response to OPTIONS <em class="bcp14">SHOULD</em> send any header that might indicate optional features implemented by the server and applicable to the target resource (e.g., <a href="##field.allow" class="smpl">Allow</a>), including potential extensions not defined by this specification. The response content, if any, might also describe the communication options in a machine or human-readable representation. A standard format for such a representation is not defined by this specification, but might be defined by future extensions to HTTP.</p></div><div id="rfc.section.9.3.7.p.5"><p>A client <em class="bcp14">MAY</em> send a <a href="##field.max-forwards" class="smpl">Max-Forwards</a> header field in an OPTIONS request to target a specific recipient in the request chain (see <a href="##field.max-forwards" id="rfc.xref.field.max-forwards.1" title="Max-Forwards">Section 7.6.2</a>). A proxy <em class="bcp14">MUST NOT</em> generate a Max-Forwards header field while forwarding a request unless that request was received with a Max-Forwards field.</p></div><div id="rfc.section.9.3.7.p.6"><p>A client that generates an OPTIONS request containing content <em class="bcp14">MUST</em> send a valid <a href="##field.content-type" class="smpl">Content-Type</a> header field describing the representation media type. Note that this specification does not define any use for such content.</p></div><div id="rfc.section.9.3.7.p.7"><p>Responses to the OPTIONS method are not cacheable.</p></div></section><section id="TRACE"><h4 id="rfc.section.9.3.8"><a href="##rfc.section.9.3.8">9.3.8.</a>&nbsp;<a href="##TRACE">TRACE</a></h4><div id="rfc.iref.t.3"></div><div id="rfc.iref.m.6"></div><div id="rfc.section.9.3.8.p.1"><p>The TRACE method requests a remote, application-level loop-back of the request message. The final recipient of the request <em class="bcp14">SHOULD</em> reflect the message received, excluding some fields described below, back to the client as the content of a <a href="##status.200" class="smpl">200 (OK)</a> response. The "message/http" format (<a href="https://httpwg.org/specs/rfc9112.html#media.type.message.http" title="Media Type message/http">Section 10.1</a> of <a href="##HTTP11" id="rfc.xref.HTTP11.21"><cite title="HTTP/1.1">[HTTP/1.1]</cite></a>) is one way to do so. The final recipient is either the origin server or the first server to receive a <a href="##field.max-forwards" class="smpl">Max-Forwards</a> value of zero (0) in the request (<a href="##field.max-forwards" id="rfc.xref.field.max-forwards.2" title="Max-Forwards">Section 7.6.2</a>).</p></div><div id="rfc.section.9.3.8.p.2"><p>A client <em class="bcp14">MUST NOT</em> generate fields in a TRACE request containing sensitive data that might be disclosed by the response. For example, it would be foolish for a user agent to send stored user credentials (<a href="##authentication" title="HTTP Authentication">Section 11</a>) or cookies <a href="##COOKIE" id="rfc.xref.COOKIE.3"><cite title="HTTP State Management Mechanism">[COOKIE]</cite></a> in a TRACE request. The final recipient of the request <em class="bcp14">SHOULD</em> exclude any request fields that are likely to contain sensitive data when that recipient generates the response content.</p></div><div id="rfc.section.9.3.8.p.3"><p>TRACE allows the client to see what is being received at the other end of the request chain and use that data for testing or diagnostic information. The value of the <a href="##field.via" class="smpl">Via</a> header field (<a href="##field.via" id="rfc.xref.field.via.2" title="Via">Section 7.6.3</a>) is of particular interest, since it acts as a trace of the request chain. Use of the <a href="##field.max-forwards" class="smpl">Max-Forwards</a> header field allows the client to limit the length of the request chain, which is useful for testing a chain of proxies forwarding messages in an infinite loop.</p></div><div id="rfc.section.9.3.8.p.4"><p>A client <em class="bcp14">MUST NOT</em> send content in a TRACE request.</p></div><div id="rfc.section.9.3.8.p.5"><p>Responses to the TRACE method are not cacheable.</p></div></section></section></section><section id="context"><h2 id="rfc.section.10"><a href="##rfc.section.10">10.</a>&nbsp;<a href="##context">Message Context</a></h2><section id="request.context"><h3 id="rfc.section.10.1"><a href="##rfc.section.10.1">10.1.</a>&nbsp;<a href="##request.context">Request Context Fields</a></h3><div id="rfc.section.10.1.p.1"><p>The request header fields below provide additional information about the request context, including information about the user, user agent, and resource behind the request.</p></div><section id="field.expect"><h4 id="rfc.section.10.1.1"><a href="##rfc.section.10.1.1">10.1.1.</a>&nbsp;<a href="##field.expect">Expect</a></h4><div id="rfc.section.10.1.1.p.1"><p>The "Expect" header field in a request indicates a certain set of behaviors (expectations) that need to be supported by the server in order to properly handle this request.</p></div><div id="rfc.section.10.1.1.p.2"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.80"></span><span class="pln">  </span><a href="##field.expect" class="smpl"><span class="typ">Expect</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln">      </span><span class="pun">#</span><a href="##field.expect" class="smpl"><span class="typ">expectation</span></a><span class="pln">
  </span><a href="##field.expect" class="smpl"><span class="typ">expectation</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><a href="##rule.token.separators" class="smpl"><span class="typ">token</span></a><span class="pln"> </span><span class="pun">[</span><span class="pln"> </span><span class="str">"="</span><span class="pln"> </span><span class="pun">(</span><span class="pln"> </span><a href="##rule.token.separators" class="smpl"><span class="typ">token</span></a><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><a href="##rule.quoted-string" class="smpl"><span class="typ">quoted-string</span></a><span class="pln"> </span><span class="pun">)</span><span class="pln"> </span><a href="##rule.parameter" class="smpl"><span class="typ">parameters</span></a><span class="pln"> </span><span class="pun">]</span></pre></div><div id="rfc.section.10.1.1.p.3"><p>The Expect field value is case-insensitive.</p></div><div id="rfc.section.10.1.1.p.4"><p>The only expectation defined by this specification is "100-continue" (with no defined parameters).</p></div><div id="rfc.section.10.1.1.p.5"><p>A server that receives an Expect field value containing a member other than <a href="##field.expect" class="smpl">100-continue</a> <em class="bcp14">MAY</em> respond with a <a href="##status.417" class="smpl">417 (Expectation Failed)</a> status code to indicate that the unexpected expectation cannot be met.</p></div><div id="rfc.section.10.1.1.p.6"><p>A <dfn>100-continue</dfn> expectation informs recipients that the client is about to send (presumably large) content in this request and wishes to receive a <a href="##status.100" class="smpl">100 (Continue)</a> interim response if the method, target URI, and header fields are not sufficient to cause an immediate success, redirect, or error response. This allows the client to wait for an indication that it is worthwhile to send the content before actually doing so, which can improve efficiency when the data is huge or when the client anticipates that an error is likely (e.g., when sending a state-changing method, for the first time, without previously verified authentication credentials).</p></div><div id="rfc.section.10.1.1.p.7"><p>For example, a request that begins with</p></div><div id="rfc.section.10.1.1.p.8"><pre class="text">PUT /somewhere/fun HTTP/1.1
Host: origin.example.com
Content-Type: video/h264
Content-Length: 1234567890987
Expect: 100-continue

</pre></div><div id="rfc.section.10.1.1.p.9"><p>allows the origin server to immediately respond with an error message, such as <a href="##status.401" class="smpl">401 (Unauthorized)</a> or <a href="##status.405" class="smpl">405 (Method Not Allowed)</a>, before the client starts filling the pipes with an unnecessary data transfer.</p></div><div id="rfc.section.10.1.1.p.10" class="avoidbreakafter"><p>Requirements for clients:</p></div><div id="rfc.section.10.1.1.p.11"><ul><li>A client <em class="bcp14">MUST NOT</em> generate a 100-continue expectation in a request that does not include content.</li><li>A client that will wait for a <a href="##status.100" class="smpl">100 (Continue)</a> response before sending the request content <em class="bcp14">MUST</em> send an <a href="##field.expect" class="smpl">Expect</a> header field containing a 100-continue expectation.</li><li>A client that sends a 100-continue expectation is not required to wait for any specific length of time; such a client <em class="bcp14">MAY</em> proceed to send the content even if it has not yet received a response. Furthermore, since <a href="##status.100" class="smpl">100 (Continue)</a> responses cannot be sent through an HTTP/1.0 intermediary, such a client <em class="bcp14">SHOULD NOT</em> wait for an indefinite period before sending the content.</li><li>A client that receives a <a href="##status.417" class="smpl">417 (Expectation Failed)</a> status code in response to a request containing a 100-continue expectation <em class="bcp14">SHOULD</em> repeat that request without a 100-continue expectation, since the 417 response merely indicates that the response chain does not support expectations (e.g., it passes through an HTTP/1.0 server).</li></ul></div><div id="rfc.section.10.1.1.p.12" class="avoidbreakafter"><p>Requirements for servers:</p></div><div id="rfc.section.10.1.1.p.13"><ul><li>A server that receives a 100-continue expectation in an HTTP/1.0 request <em class="bcp14">MUST</em> ignore that expectation.</li><li>A server <em class="bcp14">MAY</em> omit sending a <a href="##status.100" class="smpl">100 (Continue)</a> response if it has already received some or all of the content for the corresponding request, or if the framing indicates that there is no content.</li><li>A server that sends a <a href="##status.100" class="smpl">100 (Continue)</a> response <em class="bcp14">MUST</em> ultimately send a final status code, once it receives and processes the request content, unless the connection is closed prematurely.</li><li>A server that responds with a final status code before reading the entire request content <em class="bcp14">SHOULD</em> indicate whether it intends to close the connection (e.g., see <a href="https://httpwg.org/specs/rfc9112.html#persistent.tear-down" title="Tear-down">Section 9.6</a> of <a href="##HTTP11" id="rfc.xref.HTTP11.22"><cite title="HTTP/1.1">[HTTP/1.1]</cite></a>) or continue reading the request content.</li></ul></div><div id="rfc.section.10.1.1.p.14" class="avoidbreakafter"><p>Upon receiving an HTTP/1.1 (or later) request that has a method, target URI, and complete header section that contains a 100-continue expectation and an indication that request content will follow, an origin server <em class="bcp14">MUST</em> send either:</p></div><div id="rfc.section.10.1.1.p.15"><ul><li>an immediate response with a final status code, if that status can be determined by examining just the method, target URI, and header fields, or</li><li>an immediate <a href="##status.100" class="smpl">100 (Continue)</a> response to encourage the client to send the request content.</li></ul></div><div id="rfc.section.10.1.1.p.16"><p>The origin server <em class="bcp14">MUST NOT</em> wait for the content before sending the <a href="##status.100" class="smpl">100 (Continue)</a> response.</p></div><div id="rfc.section.10.1.1.p.17" class="avoidbreakafter"><p>Upon receiving an HTTP/1.1 (or later) request that has a method, target URI, and complete header section that contains a 100-continue expectation and indicates a request content will follow, a proxy <em class="bcp14">MUST</em> either:</p></div><div id="rfc.section.10.1.1.p.18"><ul><li>send an immediate response with a final status code, if that status can be determined by examining just the method, target URI, and header fields, or</li><li>forward the request toward the origin server by sending a corresponding request-line and header section to the next inbound server.</li></ul></div><div id="rfc.section.10.1.1.p.19"><p>If the proxy believes (from configuration or past interaction) that the next inbound server only supports HTTP/1.0, the proxy <em class="bcp14">MAY</em> generate an immediate <a href="##status.100" class="smpl">100 (Continue)</a> response to encourage the client to begin sending the content.</p></div></section><section id="field.from"><h4 id="rfc.section.10.1.2"><a href="##rfc.section.10.1.2">10.1.2.</a>&nbsp;<a href="##field.from">From</a></h4><div id="rfc.section.10.1.2.p.1" class="avoidbreakafter"><p>The "From" header field contains an Internet email address for a human user who controls the requesting user agent. The address ought to be machine-usable, as defined by "mailbox" in <a href="https://www.rfc-editor.org/rfc/rfc5322.html#section-3.4">Section 3.4</a> of <a href="##RFC5322" id="rfc.xref.RFC5322.6"><cite title="Internet Message Format">[RFC5322]</cite></a>:</p></div><div id="rfc.section.10.1.2.p.2"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.81"></span><span class="pln">  </span><a href="##field.from" class="smpl"><span class="typ">From</span></a><span class="pln">    </span><span class="pun">=</span><span class="pln"> </span><a href="##field.from" class="smpl"><span class="typ">mailbox</span></a><span class="pln">

  </span><a href="##field.from" class="smpl"><span class="typ">mailbox</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="nocode">&lt;mailbox, see </span><a href="##RFC5322" id="rfc.xref.RFC5322.7"><cite title="Internet Message Format"><span class="nocode">[RFC5322]</span></cite></a><span class="nocode">, </span><a href="https://www.rfc-editor.org/rfc/rfc5322.html#section-3.4"><span class="nocode">Section 3.4</span></a><span class="nocode">&gt;</span></pre></div><div id="rfc.section.10.1.2.p.3" class="avoidbreakafter"><p>An example is:</p></div><div id="rfc.section.10.1.2.p.4"><pre class="text">From: spider-admin@example.org
</pre></div><div id="rfc.section.10.1.2.p.5"><p>The From header field is rarely sent by non-robotic user agents. A user agent <em class="bcp14">SHOULD NOT</em> send a From header field without explicit configuration by the user, since that might conflict with the user's privacy interests or their site's security policy.</p></div><div id="rfc.section.10.1.2.p.6"><p>A robotic user agent <em class="bcp14">SHOULD</em> send a valid From header field so that the person responsible for running the robot can be contacted if problems occur on servers, such as if the robot is sending excessive, unwanted, or invalid requests.</p></div><div id="rfc.section.10.1.2.p.7"><p>A server <em class="bcp14">SHOULD NOT</em> use the From header field for access control or authentication, since its value is expected to be visible to anyone receiving or observing the request and is often recorded within logfiles and error reports without any expectation of privacy.</p></div></section><section id="field.referer"><h4 id="rfc.section.10.1.3"><a href="##rfc.section.10.1.3">10.1.3.</a>&nbsp;<a href="##field.referer">Referer</a></h4><div id="rfc.section.10.1.3.p.1"><p>The "Referer" [sic] header field allows the user agent to specify a URI reference for the resource from which the <a href="##target.resource" class="smpl">target URI</a> was obtained (i.e., the "referrer", though the field name is misspelled). A user agent <em class="bcp14">MUST NOT</em> include the fragment and userinfo components of the URI reference <a href="##URI" id="rfc.xref.URI.29"><cite title="Uniform Resource Identifier (URI): Generic Syntax">[URI]</cite></a>, if any, when generating the Referer field value.</p></div><div id="rfc.section.10.1.3.p.2"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.82"></span><span class="pln">  </span><a href="##field.referer" class="smpl"><span class="typ">Referer</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><a href="##uri.references" class="smpl"><span class="typ">absolute-URI</span></a><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><a href="##uri.references" class="smpl"><span class="typ">partial-URI</span></a>
</pre></div><div id="rfc.section.10.1.3.p.3"><p>The field value is either an <a href="##uri.references" class="smpl">absolute-URI</a> or a <a href="##uri.references" class="smpl">partial-URI</a>. In the latter case (<a href="##uri" title="Identifiers in HTTP">Section 4</a>), the referenced URI is relative to the target URI (<a href="##URI" id="rfc.xref.URI.30"><cite title="Uniform Resource Identifier (URI): Generic Syntax">[URI]</cite></a>, <a href="https://www.rfc-editor.org/rfc/rfc3986.html#section-5">Section 5</a>).</p></div><div id="rfc.section.10.1.3.p.4"><p>The Referer header field allows servers to generate back-links to other resources for simple analytics, logging, optimized caching, etc. It also allows obsolete or mistyped links to be found for maintenance. Some servers use the Referer header field as a means of denying links from other sites (so-called "deep linking") or restricting cross-site request forgery (CSRF), but not all requests contain it.</p></div><div id="rfc.section.10.1.3.p.5" class="avoidbreakafter"><p>Example:</p></div><div id="rfc.section.10.1.3.p.6"><pre class="text">Referer: http://www.example.org/hypertext/Overview.html
</pre></div><div id="rfc.section.10.1.3.p.7"><p>If the target URI was obtained from a source that does not have its own URI (e.g., input from the user keyboard, or an entry within the user's bookmarks/favorites), the user agent <em class="bcp14">MUST</em> either exclude the Referer header field or send it with a value of "about:blank".</p></div><div id="rfc.section.10.1.3.p.8"><p>The Referer header field value need not convey the full URI of the referring resource; a user agent <em class="bcp14">MAY</em> truncate parts other than the referring origin.</p></div><div id="rfc.section.10.1.3.p.9"><p>The Referer header field has the potential to reveal information about the request context or browsing history of the user, which is a privacy concern if the referring resource's identifier reveals personal information (such as an account name) or a resource that is supposed to be confidential (such as behind a firewall or internal to a secured service). Most general-purpose user agents do not send the Referer header field when the referring resource is a local "file" or "data" URI. A user agent <em class="bcp14">SHOULD NOT</em> send a <a href="##field.referer" class="smpl">Referer</a> header field if the referring resource was accessed with a secure protocol and the request target has an origin differing from that of the referring resource, unless the referring resource explicitly allows Referer to be sent. A user agent <em class="bcp14">MUST NOT</em> send a <a href="##field.referer" class="smpl">Referer</a> header field in an unsecured HTTP request if the referring resource was accessed with a secure protocol. See <a href="##sensitive.information.in.uris" title="Disclosure of Sensitive Information in URIs">Section 17.9</a> for additional security considerations.</p></div><div id="rfc.section.10.1.3.p.10"><p>Some intermediaries have been known to indiscriminately remove Referer header fields from outgoing requests. This has the unfortunate side effect of interfering with protection against CSRF attacks, which can be far more harmful to their users. Intermediaries and user agent extensions that wish to limit information disclosure in Referer ought to restrict their changes to specific edits, such as replacing internal domain names with pseudonyms or truncating the query and/or path components. An intermediary <em class="bcp14">SHOULD NOT</em> modify or delete the Referer header field when the field value shares the same scheme and host as the target URI.</p></div></section><section id="field.te"><h4 id="rfc.section.10.1.4"><a href="##rfc.section.10.1.4">10.1.4.</a>&nbsp;<a href="##field.te">TE</a></h4><div id="rfc.section.10.1.4.p.1"><p>The "TE" header field describes capabilities of the client with regard to transfer codings and trailer sections.</p></div><div id="rfc.section.10.1.4.p.2"><p>As described in <a href="##trailer.fields" title="Trailer Fields">Section 6.5</a>, a TE field with a "trailers" member sent in a request indicates that the client will not discard trailer fields.</p></div><div id="rfc.section.10.1.4.p.3"><p>TE is also used within HTTP/1.1 to advise servers about which transfer codings the client is able to accept in a response. As of publication, only HTTP/1.1 uses transfer codings (see <a href="https://httpwg.org/specs/rfc9112.html#transfer.codings" title="Transfer Codings">Section 7</a> of <a href="##HTTP11" id="rfc.xref.HTTP11.23"><cite title="HTTP/1.1">[HTTP/1.1]</cite></a>).</p></div><div id="rfc.section.10.1.4.p.4"><p>The TE field value is a list of members, with each member (aside from "trailers") consisting of a transfer coding name token with an optional weight indicating the client's relative preference for that transfer coding (<a href="##quality.values" title="Quality Values">Section 12.4.2</a>) and optional parameters for that transfer coding.</p></div><div id="rfc.section.10.1.4.p.5"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.83"></span><span id="rfc.iref.g.84"></span><span id="rfc.iref.g.85"></span><span id="rfc.iref.g.86"></span><span class="pln">  </span><a href="##field.te" class="smpl"><span class="typ">TE</span></a><span class="pln">                 </span><span class="pun">=</span><span class="pln"> </span><span class="pun">#</span><a href="##field.te" class="smpl"><span class="typ">t-codings</span></a><span class="pln">
  </span><a href="##field.te" class="smpl"><span class="typ">t-codings</span></a><span class="pln">          </span><span class="pun">=</span><span class="pln"> </span><span class="str">"trailers"</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="pun">(</span><span class="pln"> </span><a href="##field.te" class="smpl"><span class="typ">transfer-coding</span></a><span class="pln"> </span><span class="pun">[</span><span class="pln"> </span><a href="##quality.values" class="smpl"><span class="typ">weight</span></a><span class="pln"> </span><span class="pun">]</span><span class="pln"> </span><span class="pun">)</span><span class="pln">
  </span><a href="##field.te" class="smpl"><span class="typ">transfer-coding</span></a><span class="pln">    </span><span class="pun">=</span><span class="pln"> </span><a href="##rule.token.separators" class="smpl"><span class="typ">token</span></a><span class="pln"> </span><span class="pun">*(</span><span class="pln"> </span><a href="##whitespace" class="smpl"><span class="typ">OWS</span></a><span class="pln"> </span><span class="str">";"</span><span class="pln"> </span><a href="##whitespace" class="smpl"><span class="typ">OWS</span></a><span class="pln"> </span><a href="##field.te" class="smpl"><span class="typ">transfer-parameter</span></a><span class="pln"> </span><span class="pun">)</span><span class="pln">
  </span><a href="##field.te" class="smpl"><span class="typ">transfer-parameter</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><a href="##rule.token.separators" class="smpl"><span class="typ">token</span></a><span class="pln"> </span><a href="##whitespace" class="smpl"><span class="typ">BWS</span></a><span class="pln"> </span><span class="str">"="</span><span class="pln"> </span><a href="##whitespace" class="smpl"><span class="typ">BWS</span></a><span class="pln"> </span><span class="pun">(</span><span class="pln"> </span><a href="##rule.token.separators" class="smpl"><span class="typ">token</span></a><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><a href="##rule.quoted-string" class="smpl"><span class="typ">quoted-string</span></a><span class="pln"> </span><span class="pun">)</span></pre></div><div id="rfc.section.10.1.4.p.6"><p>A sender of TE <em class="bcp14">MUST</em> also send a "TE" connection option within the <a href="##field.connection" class="smpl">Connection</a> header field (<a href="##field.connection" id="rfc.xref.field.connection.4" title="Connection">Section 7.6.1</a>) to inform intermediaries not to forward this field.</p></div></section><section id="field.user-agent"><h4 id="rfc.section.10.1.5"><a href="##rfc.section.10.1.5">10.1.5.</a>&nbsp;<a href="##field.user-agent">User-Agent</a></h4><div id="rfc.section.10.1.5.p.1"><p>The "User-Agent" header field contains information about the user agent originating the request, which is often used by servers to help identify the scope of reported interoperability problems, to work around or tailor responses to avoid particular user agent limitations, and for analytics regarding browser or operating system use. A user agent <em class="bcp14">SHOULD</em> send a User-Agent header field in each request unless specifically configured not to do so.</p></div><div id="rfc.section.10.1.5.p.2"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.87"></span><span class="pln">  </span><a href="##field.user-agent" class="smpl"><span class="typ">User-Agent</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><a href="##field.user-agent" class="smpl"><span class="typ">product</span></a><span class="pln"> </span><span class="pun">*(</span><span class="pln"> </span><a href="##whitespace" class="smpl"><span class="typ">RWS</span></a><span class="pln"> </span><span class="pun">(</span><span class="pln"> </span><a href="##field.user-agent" class="smpl"><span class="typ">product</span></a><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><a href="##rule.comment" class="smpl"><span class="typ">comment</span></a><span class="pln"> </span><span class="pun">)</span><span class="pln"> </span><span class="pun">)</span></pre></div><div id="rfc.section.10.1.5.p.3"><p>The User-Agent field value consists of one or more product identifiers, each followed by zero or more comments (<a href="##comments" title="Comments">Section 5.6.5</a>), which together identify the user agent software and its significant subproducts. By convention, the product identifiers are listed in decreasing order of their significance for identifying the user agent software. Each product identifier consists of a name and optional version.</p></div><div id="rfc.section.10.1.5.p.4"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.88"></span><span id="rfc.iref.g.89"></span><span class="pln">  </span><a href="##field.user-agent" class="smpl"><span class="typ">product</span></a><span class="pln">         </span><span class="pun">=</span><span class="pln"> </span><a href="##rule.token.separators" class="smpl"><span class="typ">token</span></a><span class="pln"> </span><span class="pun">[</span><span class="str">"/"</span><span class="pln"> </span><a href="##field.user-agent" class="smpl"><span class="typ">product-version</span></a><span class="pun">]</span><span class="pln">
  </span><a href="##field.user-agent" class="smpl"><span class="typ">product-version</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><a href="##rule.token.separators" class="smpl"><span class="typ">token</span></a>
</pre></div><div id="rfc.section.10.1.5.p.5"><p>A sender <em class="bcp14">SHOULD</em> limit generated product identifiers to what is necessary to identify the product; a sender <em class="bcp14">MUST NOT</em> generate advertising or other nonessential information within the product identifier. A sender <em class="bcp14">SHOULD NOT</em> generate information in <a href="##field.user-agent" class="smpl">product-version</a> that is not a version identifier (i.e., successive versions of the same product name ought to differ only in the product-version portion of the product identifier).</p></div><div id="rfc.section.10.1.5.p.6" class="avoidbreakafter"><p>Example:</p></div><div id="rfc.section.10.1.5.p.7"><pre class="text">User-Agent: CERN-LineMode/2.15 libwww/2.17b3
</pre></div><div id="rfc.section.10.1.5.p.8"><p>A user agent <em class="bcp14">SHOULD NOT</em> generate a User-Agent header field containing needlessly fine-grained detail and <em class="bcp14">SHOULD</em> limit the addition of subproducts by third parties. Overly long and detailed User-Agent field values increase request latency and the risk of a user being identified against their wishes ("fingerprinting").</p></div><div id="rfc.section.10.1.5.p.9"><p>Likewise, implementations are encouraged not to use the product tokens of other implementations in order to declare compatibility with them, as this circumvents the purpose of the field. If a user agent masquerades as a different user agent, recipients can assume that the user intentionally desires to see responses tailored for that identified user agent, even if they might not work as well for the actual user agent being used.</p></div></section></section><section id="response.context"><h3 id="rfc.section.10.2"><a href="##rfc.section.10.2">10.2.</a>&nbsp;<a href="##response.context">Response Context Fields</a></h3><div id="rfc.section.10.2.p.1"><p>The response header fields below provide additional information about the response, beyond what is implied by the status code, including information about the server, about the <a href="##target.resource" class="smpl">target resource</a>, or about related resources.</p></div><section id="field.allow"><h4 id="rfc.section.10.2.1"><a href="##rfc.section.10.2.1">10.2.1.</a>&nbsp;<a href="##field.allow">Allow</a></h4><div id="rfc.section.10.2.1.p.1"><p>The "Allow" header field lists the set of methods advertised as supported by the <a href="##target.resource" class="smpl">target resource</a>. The purpose of this field is strictly to inform the recipient of valid request methods associated with the resource.</p></div><div id="rfc.section.10.2.1.p.2"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.90"></span><span class="pln">  </span><a href="##field.allow" class="smpl"><span class="typ">Allow</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="pun">#</span><a href="##method.overview" class="smpl"><span class="typ">method</span></a>
</pre></div><div id="rfc.section.10.2.1.p.3" class="avoidbreakafter"><p>Example of use:</p></div><div id="rfc.section.10.2.1.p.4"><pre class="text">Allow: GET, HEAD, PUT
</pre></div><div id="rfc.section.10.2.1.p.5"><p>The actual set of allowed methods is defined by the origin server at the time of each request. An origin server <em class="bcp14">MUST</em> generate an Allow header field in a <a href="##status.405" class="smpl">405 (Method Not Allowed)</a> response and <em class="bcp14">MAY</em> do so in any other response. An empty Allow field value indicates that the resource allows no methods, which might occur in a 405 response if the resource has been temporarily disabled by configuration.</p></div><div id="rfc.section.10.2.1.p.6"><p>A proxy <em class="bcp14">MUST NOT</em> modify the Allow header field — it does not need to understand all of the indicated methods in order to handle them according to the generic message handling rules.</p></div></section><section id="field.location"><h4 id="rfc.section.10.2.2"><a href="##rfc.section.10.2.2">10.2.2.</a>&nbsp;<a href="##field.location">Location</a></h4><div id="rfc.section.10.2.2.p.1"><p>The "Location" header field is used in some responses to refer to a specific resource in relation to the response. The type of relationship is defined by the combination of request method and status code semantics.</p></div><div id="rfc.section.10.2.2.p.2"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.91"></span><span class="pln">  </span><a href="##field.location" class="smpl"><span class="typ">Location</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><a href="##uri.references" class="smpl"><span class="typ">URI-reference</span></a>
</pre></div><div id="rfc.section.10.2.2.p.3"><p>The field value consists of a single URI-reference. When it has the form of a relative reference (<a href="##URI" id="rfc.xref.URI.31"><cite title="Uniform Resource Identifier (URI): Generic Syntax">[URI]</cite></a>, <a href="https://www.rfc-editor.org/rfc/rfc3986.html#section-4.2">Section 4.2</a>), the final value is computed by resolving it against the target URI (<a href="##URI" id="rfc.xref.URI.32"><cite title="Uniform Resource Identifier (URI): Generic Syntax">[URI]</cite></a>, <a href="https://www.rfc-editor.org/rfc/rfc3986.html#section-5">Section 5</a>).</p></div><div id="rfc.section.10.2.2.p.4"><p>For <a href="##status.201" class="smpl">201 (Created)</a> responses, the Location value refers to the primary resource created by the request. For <a href="##status.3xx" class="smpl">3xx (Redirection)</a> responses, the Location value refers to the preferred target resource for automatically redirecting the request.</p></div><div id="rfc.section.10.2.2.p.5"><p>If the Location value provided in a <a href="##status.3xx" class="smpl">3xx (Redirection)</a> response does not have a fragment component, a user agent <em class="bcp14">MUST</em> process the redirection as if the value inherits the fragment component of the URI reference used to generate the target URI (i.e., the redirection inherits the original reference's fragment, if any).</p></div><div id="rfc.section.10.2.2.p.6" class="avoidbreakafter"><p>For example, a GET request generated for the URI reference "http://www.example.org/~tim" might result in a <a href="##status.303" class="smpl">303 (See Other)</a> response containing the header field:</p></div><div id="rfc.section.10.2.2.p.7"><pre class="text">Location: /People.html#tim
</pre></div><div id="rfc.section.10.2.2.p.8"><p>which suggests that the user agent redirect to "http://www.example.org/People.html#tim"</p></div><div id="rfc.section.10.2.2.p.9" class="avoidbreakafter"><p>Likewise, a GET request generated for the URI reference "http://www.example.org/index.html#larry" might result in a <a href="##status.301" class="smpl">301 (Moved Permanently)</a> response containing the header field:</p></div><div id="rfc.section.10.2.2.p.10"><pre class="text">Location: http://www.example.net/index.html
</pre></div><div id="rfc.section.10.2.2.p.11"><p>which suggests that the user agent redirect to "http://www.example.net/index.html#larry", preserving the original fragment identifier.</p></div><div id="rfc.section.10.2.2.p.12"><p>There are circumstances in which a fragment identifier in a Location value would not be appropriate. For example, the Location header field in a <a href="##status.201" class="smpl">201 (Created)</a> response is supposed to provide a URI that is specific to the created resource.</p></div><div id="rfc.section.10.2.2.p.13"><aside><div id="rfc.section.10.2.2.p.13.1"><p><b>Note:</b> Some recipients attempt to recover from Location header fields that are not valid URI references. This specification does not mandate or define such processing, but does allow it for the sake of robustness. A Location field value cannot allow a list of members because the comma list separator is a valid data character within a URI-reference. If an invalid message is sent with multiple Location field lines, a recipient along the path might combine those field lines into one value. Recovery of a valid Location field value from that situation is difficult and not interoperable across implementations.</p></div></aside></div><div id="rfc.section.10.2.2.p.14"><aside><div id="rfc.section.10.2.2.p.14.1"><p><b>Note:</b> The <a href="##field.content-location" class="smpl">Content-Location</a> header field (<a href="##field.content-location" id="rfc.xref.field.content-location.2" title="Content-Location">Section 8.7</a>) differs from Location in that the Content-Location refers to the most specific resource corresponding to the enclosed representation. It is therefore possible for a response to contain both the Location and Content-Location header fields.</p></div></aside></div></section><section id="field.retry-after"><h4 id="rfc.section.10.2.3"><a href="##rfc.section.10.2.3">10.2.3.</a>&nbsp;<a href="##field.retry-after">Retry-After</a></h4><div id="rfc.section.10.2.3.p.1"><p>Servers send the "Retry-After" header field to indicate how long the user agent ought to wait before making a follow-up request. When sent with a <a href="##status.503" class="smpl">503 (Service Unavailable)</a> response, Retry-After indicates how long the service is expected to be unavailable to the client. When sent with any <a href="##status.3xx" class="smpl">3xx (Redirection)</a> response, Retry-After indicates the minimum time that the user agent is asked to wait before issuing the redirected request.</p></div><div id="rfc.section.10.2.3.p.2"><p>The Retry-After field value can be either an HTTP-date or a number of seconds to delay after receiving the response.</p></div><div id="rfc.section.10.2.3.p.3"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.92"></span><span class="pln">  </span><a href="##field.retry-after" class="smpl"><span class="typ">Retry-After</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><a href="##http.date" class="smpl"><span class="typ">HTTP-date</span></a><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><a href="##rule.delay-seconds" class="smpl"><span class="typ">delay-seconds</span></a>
</pre></div><div id="rfc.section.10.2.3.p.4"><p id="rule.delay-seconds">A delay-seconds value is a non-negative decimal integer, representing time in seconds.</p></div><div id="rfc.section.10.2.3.p.5"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.93"></span><span class="pln">  </span><a href="##rule.delay-seconds" class="smpl"><span class="typ">delay-seconds</span></a><span class="pln">  </span><span class="pun">=</span><span class="pln"> 1</span><span class="pun">*</span><a href="##core.rules" class="smpl"><span class="typ">DIGIT</span></a>
</pre></div><div id="rfc.section.10.2.3.p.6"><p>Two examples of its use are</p></div><div id="rfc.section.10.2.3.p.7"><pre class="text">Retry-After: Fri, 31 Dec 1999 23:59:59 GMT
Retry-After: 120
</pre></div><div id="rfc.section.10.2.3.p.8"><p>In the latter example, the delay is 2 minutes.</p></div></section><section id="field.server"><h4 id="rfc.section.10.2.4"><a href="##rfc.section.10.2.4">10.2.4.</a>&nbsp;<a href="##field.server">Server</a></h4><div id="rfc.section.10.2.4.p.1"><p>The "Server" header field contains information about the software used by the origin server to handle the request, which is often used by clients to help identify the scope of reported interoperability problems, to work around or tailor requests to avoid particular server limitations, and for analytics regarding server or operating system use. An origin server <em class="bcp14">MAY</em> generate a Server header field in its responses.</p></div><div id="rfc.section.10.2.4.p.2"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.94"></span><span class="pln">  </span><a href="##field.server" class="smpl"><span class="typ">Server</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><a href="##field.user-agent" class="smpl"><span class="typ">product</span></a><span class="pln"> </span><span class="pun">*(</span><span class="pln"> </span><a href="##whitespace" class="smpl"><span class="typ">RWS</span></a><span class="pln"> </span><span class="pun">(</span><span class="pln"> </span><a href="##field.user-agent" class="smpl"><span class="typ">product</span></a><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><a href="##rule.comment" class="smpl"><span class="typ">comment</span></a><span class="pln"> </span><span class="pun">)</span><span class="pln"> </span><span class="pun">)</span></pre></div><div id="rfc.section.10.2.4.p.3"><p>The Server header field value consists of one or more product identifiers, each followed by zero or more comments (<a href="##comments" title="Comments">Section 5.6.5</a>), which together identify the origin server software and its significant subproducts. By convention, the product identifiers are listed in decreasing order of their significance for identifying the origin server software. Each product identifier consists of a name and optional version, as defined in <a href="##field.user-agent" id="rfc.xref.field.user-agent.1" title="User-Agent">Section 10.1.5</a>.</p></div><div id="rfc.section.10.2.4.p.4" class="avoidbreakafter"><p>Example:</p></div><div id="rfc.section.10.2.4.p.5"><pre class="text">Server: CERN/3.0 libwww/2.17
</pre></div><div id="rfc.section.10.2.4.p.6"><p>An origin server <em class="bcp14">SHOULD NOT</em> generate a Server header field containing needlessly fine-grained detail and <em class="bcp14">SHOULD</em> limit the addition of subproducts by third parties. Overly long and detailed Server field values increase response latency and potentially reveal internal implementation details that might make it (slightly) easier for attackers to find and exploit known security holes.</p></div></section></section></section><section id="authentication"><h2 id="rfc.section.11"><a href="##rfc.section.11">11.</a>&nbsp;<a href="##authentication">HTTP Authentication</a></h2><section id="auth.scheme"><h3 id="rfc.section.11.1"><a href="##rfc.section.11.1">11.1.</a>&nbsp;<a href="##auth.scheme">Authentication Scheme</a></h3><div id="rfc.section.11.1.p.1" class="avoidbreakafter"><p>HTTP provides a general framework for access control and authentication, via an extensible set of challenge-response authentication schemes, which can be used by a server to challenge a client request and by a client to provide authentication information. It uses a case-insensitive token to identify the authentication scheme:</p></div><div id="rfc.section.11.1.p.2"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.95"></span><span class="pln">  </span><span class="typ">auth-scheme</span><span class="pln">    </span><span class="pun">=</span><span class="pln"> </span><a href="##rule.token.separators" class="smpl"><span class="typ">token</span></a>
</pre></div><div id="rfc.section.11.1.p.3"><p>Aside from the general framework, this document does not specify any authentication schemes. New and existing authentication schemes are specified independently and ought to be registered within the "Hypertext Transfer Protocol (HTTP) Authentication Scheme Registry". For example, the "basic" and "digest" authentication schemes are defined by <a href="##RFC7617" id="rfc.xref.RFC7617.1"><cite title="The &#39;Basic&#39; HTTP Authentication Scheme">[RFC7617]</cite></a> and <a href="##RFC7616" id="rfc.xref.RFC7616.1"><cite title="HTTP Digest Access Authentication">[RFC7616]</cite></a>, respectively.</p></div></section><section id="auth.params"><h3 id="rfc.section.11.2"><a href="##rfc.section.11.2">11.2.</a>&nbsp;<a href="##auth.params">Authentication Parameters</a></h3><div id="rfc.section.11.2.p.1"><p>The authentication scheme is followed by additional information necessary for achieving authentication via that scheme as either a comma-separated list of parameters or a single sequence of characters capable of holding base64-encoded information.</p></div><div id="rfc.section.11.2.p.2"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.96"></span><span class="pln">  </span><span class="typ">token68</span><span class="pln">        </span><span class="pun">=</span><span class="pln"> 1</span><span class="pun">*(</span><span class="pln"> </span><a href="##core.rules" class="smpl"><span class="typ">ALPHA</span></a><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><a href="##core.rules" class="smpl"><span class="typ">DIGIT</span></a><span class="pln"> </span><span class="pun">/</span><span class="pln">
                       </span><span class="str">"-"</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="str">"."</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="str">"_"</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="str">"~"</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="str">"+"</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="str">"/"</span><span class="pln"> </span><span class="pun">)</span><span class="pln"> </span><span class="pun">*</span><span class="str">"="</span></pre></div><div id="rfc.section.11.2.p.3"><p>The token68 syntax allows the 66 unreserved URI characters (<a href="##URI" id="rfc.xref.URI.33"><cite title="Uniform Resource Identifier (URI): Generic Syntax">[URI]</cite></a>), plus a few others, so that it can hold a base64, base64url (URL and filename safe alphabet), base32, or base16 (hex) encoding, with or without padding, but excluding whitespace (<a href="##RFC4648" id="rfc.xref.RFC4648.1"><cite title="The Base16, Base32, and Base64 Data Encodings">[RFC4648]</cite></a>).</p></div><div id="rfc.section.11.2.p.4"><p>Authentication parameters are name/value pairs, where the name token is matched case-insensitively and each parameter name <em class="bcp14">MUST</em> only occur once per challenge.</p></div><div id="rfc.section.11.2.p.5"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.97"></span><span class="pln">  </span><span class="typ">auth-param</span><span class="pln">     </span><span class="pun">=</span><span class="pln"> </span><a href="##rule.token.separators" class="smpl"><span class="typ">token</span></a><span class="pln"> </span><a href="##whitespace" class="smpl"><span class="typ">BWS</span></a><span class="pln"> </span><span class="str">"="</span><span class="pln"> </span><a href="##whitespace" class="smpl"><span class="typ">BWS</span></a><span class="pln"> </span><span class="pun">(</span><span class="pln"> </span><a href="##rule.token.separators" class="smpl"><span class="typ">token</span></a><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><a href="##rule.quoted-string" class="smpl"><span class="typ">quoted-string</span></a><span class="pln"> </span><span class="pun">)</span></pre></div><div id="rfc.section.11.2.p.6"><p>Parameter values can be expressed either as "token" or as "quoted-string" (<a href="##fields.components" title="Common Rules for Defining Field Values">Section 5.6</a>). Authentication scheme definitions need to accept both notations, both for senders and recipients, to allow recipients to use generic parsing components regardless of the authentication scheme.</p></div><div id="rfc.section.11.2.p.7"><p>For backwards compatibility, authentication scheme definitions can restrict the format for senders to one of the two variants. This can be important when it is known that deployed implementations will fail when encountering one of the two formats.</p></div></section><section id="challenge.and.response"><h3 id="rfc.section.11.3"><a href="##rfc.section.11.3">11.3.</a>&nbsp;<a href="##challenge.and.response">Challenge and Response</a></h3><div id="rfc.section.11.3.p.1"><p>A <a href="##status.401" class="smpl">401 (Unauthorized)</a> response message is used by an origin server to challenge the authorization of a user agent, including a <a href="##field.www-authenticate" class="smpl">WWW-Authenticate</a> header field containing at least one challenge applicable to the requested resource.</p></div><div id="rfc.section.11.3.p.2"><p>A <a href="##status.407" class="smpl">407 (Proxy Authentication Required)</a> response message is used by a proxy to challenge the authorization of a client, including a <a href="##field.proxy-authenticate" class="smpl">Proxy-Authenticate</a> header field containing at least one challenge applicable to the proxy for the requested resource.</p></div><div id="rfc.section.11.3.p.3"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.98"></span><span class="pln">  </span><a href="##challenge.and.response" class="smpl"><span class="typ">challenge</span></a><span class="pln">   </span><span class="pun">=</span><span class="pln"> </span><a href="##auth.scheme" class="smpl"><span class="typ">auth-scheme</span></a><span class="pln"> </span><span class="pun">[</span><span class="pln"> 1</span><span class="pun">*</span><a href="##core.rules" class="smpl"><span class="typ">SP</span></a><span class="pln"> </span><span class="pun">(</span><span class="pln"> </span><a href="##auth.params" class="smpl"><span class="typ">token68</span></a><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="pun">#</span><a href="##auth.params" class="smpl"><span class="typ">auth-param</span></a><span class="pln"> </span><span class="pun">)</span><span class="pln"> </span><span class="pun">]</span></pre></div><div id="rfc.section.11.3.p.4"><aside><div id="rfc.section.11.3.p.4.1"><p><b>Note:</b> Many clients fail to parse a challenge that contains an unknown scheme. A workaround for this problem is to list well-supported schemes (such as "basic") first. </p></div></aside></div><div id="rfc.section.11.3.p.5"><p>A user agent that wishes to authenticate itself with an origin server — usually, but not necessarily, after receiving a <a href="##status.401" class="smpl">401 (Unauthorized)</a> — can do so by including an <a href="##field.authorization" class="smpl">Authorization</a> header field with the request.</p></div><div id="rfc.section.11.3.p.6"><p>A client that wishes to authenticate itself with a proxy — usually, but not necessarily, after receiving a <a href="##status.407" class="smpl">407 (Proxy Authentication Required)</a> — can do so by including a <a href="##field.proxy-authorization" class="smpl">Proxy-Authorization</a> header field with the request.</p></div></section><section id="credentials"><h3 id="rfc.section.11.4"><a href="##rfc.section.11.4">11.4.</a>&nbsp;<a href="##credentials">Credentials</a></h3><div id="rfc.section.11.4.p.1"><p>Both the <a href="##field.authorization" class="smpl">Authorization</a> field value and the <a href="##field.proxy-authorization" class="smpl">Proxy-Authorization</a> field value contain the client's credentials for the realm of the resource being requested, based upon a challenge received in a response (possibly at some point in the past). When creating their values, the user agent ought to do so by selecting the challenge with what it considers to be the most secure auth-scheme that it understands, obtaining credentials from the user as appropriate. Transmission of credentials within header field values implies significant security considerations regarding the confidentiality of the underlying connection, as described in <a href="##confidentiality.of.credentials" title="Confidentiality of Credentials">Section 17.16.1</a>.</p></div><div id="rfc.section.11.4.p.2"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.99"></span><span class="pln">  </span><a href="##credentials" class="smpl"><span class="typ">credentials</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><a href="##auth.scheme" class="smpl"><span class="typ">auth-scheme</span></a><span class="pln"> </span><span class="pun">[</span><span class="pln"> 1</span><span class="pun">*</span><a href="##core.rules" class="smpl"><span class="typ">SP</span></a><span class="pln"> </span><span class="pun">(</span><span class="pln"> </span><a href="##auth.params" class="smpl"><span class="typ">token68</span></a><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="pun">#</span><a href="##auth.params" class="smpl"><span class="typ">auth-param</span></a><span class="pln"> </span><span class="pun">)</span><span class="pln"> </span><span class="pun">]</span></pre></div><div id="rfc.section.11.4.p.3"><p>Upon receipt of a request for a protected resource that omits credentials, contains invalid credentials (e.g., a bad password) or partial credentials (e.g., when the authentication scheme requires more than one round trip), an origin server <em class="bcp14">SHOULD</em> send a <a href="##status.401" class="smpl">401 (Unauthorized)</a> response that contains a <a href="##field.www-authenticate" class="smpl">WWW-Authenticate</a> header field with at least one (possibly new) challenge applicable to the requested resource.</p></div><div id="rfc.section.11.4.p.4"><p>Likewise, upon receipt of a request that omits proxy credentials or contains invalid or partial proxy credentials, a proxy that requires authentication <em class="bcp14">SHOULD</em> generate a <a href="##status.407" class="smpl">407 (Proxy Authentication Required)</a> response that contains a <a href="##field.proxy-authenticate" class="smpl">Proxy-Authenticate</a> header field with at least one (possibly new) challenge applicable to the proxy.</p></div><div id="rfc.section.11.4.p.5"><p>A server that receives valid credentials that are not adequate to gain access ought to respond with the <a href="##status.403" class="smpl">403 (Forbidden)</a> status code (<a href="##status.403" id="rfc.xref.status.403.1" title="403 Forbidden">Section 15.5.4</a>).</p></div><div id="rfc.section.11.4.p.6"><p>HTTP does not restrict applications to this simple challenge-response framework for access authentication. Additional mechanisms can be used, such as authentication at the transport level or via message encapsulation, and with additional header fields specifying authentication information. However, such additional mechanisms are not defined by this specification.</p></div><div id="rfc.section.11.4.p.7"><p>Note that various custom mechanisms for user authentication use the Set-Cookie and Cookie header fields, defined in <a href="##COOKIE" id="rfc.xref.COOKIE.4"><cite title="HTTP State Management Mechanism">[COOKIE]</cite></a>, for passing tokens related to authentication.</p></div></section><section id="protection.space"><h3 id="rfc.section.11.5"><a href="##rfc.section.11.5">11.5.</a>&nbsp;<a href="##protection.space">Establishing a Protection Space (Realm)</a></h3><div id="rfc.section.11.5.p.1"><p>The <dfn>realm</dfn> authentication parameter is reserved for use by authentication schemes that wish to indicate a scope of protection.</p></div><div id="rfc.section.11.5.p.2"><p>A <dfn>protection space</dfn> is defined by the origin (see <a href="##origin" title="URI Origin">Section 4.3.1</a>) of the server being accessed, in combination with the realm value if present. These realms allow the protected resources on a server to be partitioned into a set of protection spaces, each with its own authentication scheme and/or authorization database. The realm value is a string, generally assigned by the origin server, that can have additional semantics specific to the authentication scheme. Note that a response can have multiple challenges with the same auth-scheme but with different realms.</p></div><div id="rfc.section.11.5.p.3"><p>The protection space determines the domain over which credentials can be automatically applied. If a prior request has been authorized, the user agent <em class="bcp14">MAY</em> reuse the same credentials for all other requests within that protection space for a period of time determined by the authentication scheme, parameters, and/or user preferences (such as a configurable inactivity timeout).</p></div><div id="rfc.section.11.5.p.4"><p>The extent of a protection space, and therefore the requests to which credentials might be automatically applied, is not necessarily known to clients without additional information. An authentication scheme might define parameters that describe the extent of a protection space. Unless specifically allowed by the authentication scheme, a single protection space cannot extend outside the scope of its server.</p></div><div id="rfc.section.11.5.p.5"><p>For historical reasons, a sender <em class="bcp14">MUST</em> only generate the quoted-string syntax. Recipients might have to support both token and quoted-string syntax for maximum interoperability with existing clients that have been accepting both notations for a long time.</p></div></section><section id="auth.user.origin.server"><h3 id="rfc.section.11.6"><a href="##rfc.section.11.6">11.6.</a>&nbsp;<a href="##auth.user.origin.server">Authenticating Users to Origin Servers</a></h3><section id="field.www-authenticate"><h4 id="rfc.section.11.6.1"><a href="##rfc.section.11.6.1">11.6.1.</a>&nbsp;<a href="##field.www-authenticate">WWW-Authenticate</a></h4><div id="rfc.section.11.6.1.p.1"><p>The "WWW-Authenticate" response header field indicates the authentication scheme(s) and parameters applicable to the target resource.</p></div><div id="rfc.section.11.6.1.p.2"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.100"></span><span class="pln">  </span><a href="##field.www-authenticate" class="smpl"><span class="typ">WWW-Authenticate</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="pun">#</span><a href="##challenge.and.response" class="smpl"><span class="typ">challenge</span></a>
</pre></div><div id="rfc.section.11.6.1.p.3"><p>A server generating a <a href="##status.401" class="smpl">401 (Unauthorized)</a> response <em class="bcp14">MUST</em> send a WWW-Authenticate header field containing at least one challenge. A server <em class="bcp14">MAY</em> generate a WWW-Authenticate header field in other response messages to indicate that supplying credentials (or different credentials) might affect the response.</p></div><div id="rfc.section.11.6.1.p.4"><p>A proxy forwarding a response <em class="bcp14">MUST NOT</em> modify any <a href="##field.www-authenticate" class="smpl">WWW-Authenticate</a> header fields in that response.</p></div><div id="rfc.section.11.6.1.p.5"><p>User agents are advised to take special care in parsing the field value, as it might contain more than one challenge, and each challenge can contain a comma-separated list of authentication parameters. Furthermore, the header field itself can occur multiple times.</p></div><div id="rfc.section.11.6.1.p.6" class="avoidbreakafter"><p>For instance:</p></div><div id="rfc.section.11.6.1.p.7"><pre class="text">WWW-Authenticate: Basic realm="simple", Newauth realm="apps",
                 type=1, title="Login to \"apps\""
</pre></div><div id="rfc.section.11.6.1.p.8"><p>This header field contains two challenges, one for the "Basic" scheme with a realm value of "simple" and another for the "Newauth" scheme with a realm value of "apps". It also contains two additional parameters, "type" and "title".</p></div><div id="rfc.section.11.6.1.p.9"><p>Some user agents do not recognize this form, however. As a result, sending a WWW-Authenticate field value with more than one member on the same field line might not be interoperable.</p></div><div id="rfc.section.11.6.1.p.10"><aside><div id="rfc.section.11.6.1.p.10.1"><p><b>Note:</b> The challenge grammar production uses the list syntax as well. Therefore, a sequence of comma, whitespace, and comma can be considered either as applying to the preceding challenge, or to be an empty entry in the list of challenges. In practice, this ambiguity does not affect the semantics of the header field value and thus is harmless.</p></div></aside></div></section><section id="field.authorization"><h4 id="rfc.section.11.6.2"><a href="##rfc.section.11.6.2">11.6.2.</a>&nbsp;<a href="##field.authorization">Authorization</a></h4><div id="rfc.section.11.6.2.p.1"><p>The "Authorization" header field allows a user agent to authenticate itself with an origin server — usually, but not necessarily, after receiving a <a href="##status.401" class="smpl">401 (Unauthorized)</a> response. Its value consists of credentials containing the authentication information of the user agent for the realm of the resource being requested.</p></div><div id="rfc.section.11.6.2.p.2"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.101"></span><span class="pln">  </span><a href="##field.authorization" class="smpl"><span class="typ">Authorization</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><a href="##credentials" class="smpl"><span class="typ">credentials</span></a>
</pre></div><div id="rfc.section.11.6.2.p.3"><p>If a request is authenticated and a realm specified, the same credentials are presumed to be valid for all other requests within this realm (assuming that the authentication scheme itself does not require otherwise, such as credentials that vary according to a challenge value or using synchronized clocks).</p></div><div id="rfc.section.11.6.2.p.4"><p>A proxy forwarding a request <em class="bcp14">MUST NOT</em> modify any <a href="##field.authorization" class="smpl">Authorization</a> header fields in that request. See <a href="https://httpwg.org/specs/rfc9111.html#caching.authenticated.responses" title="Storing Responses to Authenticated Requests">Section 3.5</a> of <a href="##CACHING" id="rfc.xref.CACHING.20"><cite title="HTTP Caching">[CACHING]</cite></a> for details of and requirements pertaining to handling of the Authorization header field by HTTP caches.</p></div></section><section id="field.authentication-info"><h4 id="rfc.section.11.6.3"><a href="##rfc.section.11.6.3">11.6.3.</a>&nbsp;<a href="##field.authentication-info">Authentication-Info</a></h4><div id="rfc.section.11.6.3.p.1"><p>HTTP authentication schemes can use the "Authentication-Info" response field to communicate information after the client's authentication credentials have been accepted. This information can include a finalization message from the server (e.g., it can contain the server authentication).</p></div><div id="rfc.section.11.6.3.p.2"><p>The field value is a list of parameters (name/value pairs), using the "auth-param" syntax defined in <a href="##challenge.and.response" title="Challenge and Response">Section 11.3</a>. This specification only describes the generic format; authentication schemes using Authentication-Info will define the individual parameters. The "Digest" Authentication Scheme, for instance, defines multiple parameters in <a href="https://www.rfc-editor.org/rfc/rfc7616.html#section-3.5">Section 3.5</a> of <a href="##RFC7616" id="rfc.xref.RFC7616.2"><cite title="HTTP Digest Access Authentication">[RFC7616]</cite></a>.</p></div><div id="rfc.section.11.6.3.p.3"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.102"></span><span class="pln">  </span><a href="##field.authentication-info" class="smpl"><span class="typ">Authentication-Info</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="pun">#</span><a href="##auth.params" class="smpl"><span class="typ">auth-param</span></a>
</pre></div><div id="rfc.section.11.6.3.p.4"><p>The Authentication-Info field can be used in any HTTP response, independently of request method and status code. Its semantics are defined by the authentication scheme indicated by the <a href="##field.authorization" class="smpl">Authorization</a> header field (<a href="##field.authorization" id="rfc.xref.field.authorization.1" title="Authorization">Section 11.6.2</a>) of the corresponding request.</p></div><div id="rfc.section.11.6.3.p.5"><p>A proxy forwarding a response is not allowed to modify the field value in any way.</p></div><div id="rfc.section.11.6.3.p.6"><p>Authentication-Info can be sent as a trailer field (<a href="##trailer.fields" title="Trailer Fields">Section 6.5</a>) when the authentication scheme explicitly allows this.</p></div></section></section><section id="auth.client.proxy"><h3 id="rfc.section.11.7"><a href="##rfc.section.11.7">11.7.</a>&nbsp;<a href="##auth.client.proxy">Authenticating Clients to Proxies</a></h3><section id="field.proxy-authenticate"><h4 id="rfc.section.11.7.1"><a href="##rfc.section.11.7.1">11.7.1.</a>&nbsp;<a href="##field.proxy-authenticate">Proxy-Authenticate</a></h4><div id="rfc.section.11.7.1.p.1"><p>The "Proxy-Authenticate" header field consists of at least one challenge that indicates the authentication scheme(s) and parameters applicable to the proxy for this request. A proxy <em class="bcp14">MUST</em> send at least one Proxy-Authenticate header field in each <a href="##status.407" class="smpl">407 (Proxy Authentication Required)</a> response that it generates.</p></div><div id="rfc.section.11.7.1.p.2"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.103"></span><span class="pln">  </span><a href="##field.proxy-authenticate" class="smpl"><span class="typ">Proxy-Authenticate</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="pun">#</span><a href="##challenge.and.response" class="smpl"><span class="typ">challenge</span></a>
</pre></div><div id="rfc.section.11.7.1.p.3"><p>Unlike <a href="##field.www-authenticate" class="smpl">WWW-Authenticate</a>, the Proxy-Authenticate header field applies only to the next outbound client on the response chain. This is because only the client that chose a given proxy is likely to have the credentials necessary for authentication. However, when multiple proxies are used within the same administrative domain, such as office and regional caching proxies within a large corporate network, it is common for credentials to be generated by the user agent and passed through the hierarchy until consumed. Hence, in such a configuration, it will appear as if Proxy-Authenticate is being forwarded because each proxy will send the same challenge set.</p></div><div id="rfc.section.11.7.1.p.4"><p>Note that the parsing considerations for <a href="##field.www-authenticate" class="smpl">WWW-Authenticate</a> apply to this header field as well; see <a href="##field.www-authenticate" id="rfc.xref.field.www-authenticate.1" title="WWW-Authenticate">Section 11.6.1</a> for details.</p></div></section><section id="field.proxy-authorization"><h4 id="rfc.section.11.7.2"><a href="##rfc.section.11.7.2">11.7.2.</a>&nbsp;<a href="##field.proxy-authorization">Proxy-Authorization</a></h4><div id="rfc.section.11.7.2.p.1"><p>The "Proxy-Authorization" header field allows the client to identify itself (or its user) to a proxy that requires authentication. Its value consists of credentials containing the authentication information of the client for the proxy and/or realm of the resource being requested.</p></div><div id="rfc.section.11.7.2.p.2"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.104"></span><span class="pln">  </span><a href="##field.proxy-authorization" class="smpl"><span class="typ">Proxy-Authorization</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><a href="##credentials" class="smpl"><span class="typ">credentials</span></a>
</pre></div><div id="rfc.section.11.7.2.p.3"><p>Unlike <a href="##field.authorization" class="smpl">Authorization</a>, the Proxy-Authorization header field applies only to the next inbound proxy that demanded authentication using the <a href="##field.proxy-authenticate" class="smpl">Proxy-Authenticate</a> header field. When multiple proxies are used in a chain, the Proxy-Authorization header field is consumed by the first inbound proxy that was expecting to receive credentials. A proxy <em class="bcp14">MAY</em> relay the credentials from the client request to the next proxy if that is the mechanism by which the proxies cooperatively authenticate a given request.</p></div></section><section id="field.proxy-authentication-info"><h4 id="rfc.section.11.7.3"><a href="##rfc.section.11.7.3">11.7.3.</a>&nbsp;<a href="##field.proxy-authentication-info">Proxy-Authentication-Info</a></h4><div id="rfc.section.11.7.3.p.1" class="avoidbreakafter"><p>The "Proxy-Authentication-Info" response header field is equivalent to <a href="##field.authentication-info" class="smpl">Authentication-Info</a>, except that it applies to proxy authentication (<a href="##challenge.and.response" title="Challenge and Response">Section 11.3</a>) and its semantics are defined by the authentication scheme indicated by the Proxy-Authorization header field (<a href="##field.proxy-authorization" id="rfc.xref.field.proxy-authorization.1" title="Proxy-Authorization">Section 11.7.2</a>) of the corresponding request:</p></div><div id="rfc.section.11.7.3.p.2"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.105"></span><span class="pln">  </span><a href="##field.proxy-authentication-info" class="smpl"><span class="typ">Proxy-Authentication-Info</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="pun">#</span><a href="##auth.params" class="smpl"><span class="typ">auth-param</span></a>
</pre></div><div id="rfc.section.11.7.3.p.3"><p>However, unlike <a href="##field.authentication-info" class="smpl">Authentication-Info</a>, the Proxy-Authentication-Info header field applies only to the next outbound client on the response chain. This is because only the client that chose a given proxy is likely to have the credentials necessary for authentication. However, when multiple proxies are used within the same administrative domain, such as office and regional caching proxies within a large corporate network, it is common for credentials to be generated by the user agent and passed through the hierarchy until consumed. Hence, in such a configuration, it will appear as if Proxy-Authentication-Info is being forwarded because each proxy will send the same field value.</p></div><div id="rfc.section.11.7.3.p.4"><p>Proxy-Authentication-Info can be sent as a trailer field (<a href="##trailer.fields" title="Trailer Fields">Section 6.5</a>) when the authentication scheme explicitly allows this.</p></div></section></section></section><section id="content.negotiation"><h2 id="rfc.section.12"><a href="##rfc.section.12">12.</a>&nbsp;<a href="##content.negotiation">Content Negotiation</a></h2><div id="rfc.section.12.p.1"><p>When responses convey content, whether indicating a success or an error, the origin server often has different ways of representing that information; for example, in different formats, languages, or encodings. Likewise, different users or user agents might have differing capabilities, characteristics, or preferences that could influence which representation, among those available, would be best to deliver. For this reason, HTTP provides mechanisms for <a href="##content.negotiation" class="smpl">content negotiation</a>.</p></div><div id="rfc.section.12.p.2"><p>This specification defines three patterns of content negotiation that can be made visible within the protocol: "proactive" negotiation, where the server selects the representation based upon the user agent's stated preferences; "reactive" negotiation, where the server provides a list of representations for the user agent to choose from; and "request content" negotiation, where the user agent selects the representation for a future request based upon the server's stated preferences in past responses.</p></div><div id="rfc.section.12.p.3"><p>Other patterns of content negotiation include "conditional content", where the representation consists of multiple parts that are selectively rendered based on user agent parameters, "active content", where the representation contains a script that makes additional (more specific) requests based on the user agent characteristics, and "Transparent Content Negotiation" (<a href="##RFC2295" id="rfc.xref.RFC2295.1"><cite title="Transparent Content Negotiation in HTTP">[RFC2295]</cite></a>), where content selection is performed by an intermediary. These patterns are not mutually exclusive, and each has trade-offs in applicability and practicality.</p></div><div id="rfc.section.12.p.4"><p>Note that, in all cases, HTTP is not aware of the resource semantics. The consistency with which an origin server responds to requests, over time and over the varying dimensions of content negotiation, and thus the "sameness" of a resource's observed representations over time, is determined entirely by whatever entity or algorithm selects or generates those responses.</p></div><section id="proactive.negotiation"><h3 id="rfc.section.12.1"><a href="##rfc.section.12.1">12.1.</a>&nbsp;<a href="##proactive.negotiation">Proactive Negotiation</a></h3><div id="rfc.section.12.1.p.1"><p>When content negotiation preferences are sent by the user agent in a request to encourage an algorithm located at the server to select the preferred representation, it is called <dfn>proactive negotiation</dfn> (a.k.a., <dfn>server-driven negotiation</dfn>). Selection is based on the available representations for a response (the dimensions over which it might vary, such as language, content coding, etc.) compared to various information supplied in the request, including both the explicit negotiation header fields below and implicit characteristics, such as the client's network address or parts of the <a href="##field.user-agent" class="smpl">User-Agent</a> field.</p></div><div id="rfc.section.12.1.p.2"><p>Proactive negotiation is advantageous when the algorithm for selecting from among the available representations is difficult to describe to a user agent, or when the server desires to send its "best guess" to the user agent along with the first response (when that "best guess" is good enough for the user, this avoids the round-trip delay of a subsequent request). In order to improve the server's guess, a user agent <em class="bcp14">MAY</em> send request header fields that describe its preferences.</p></div><div id="rfc.section.12.1.p.3" class="avoidbreakafter"><p>Proactive negotiation has serious disadvantages:</p></div><div id="rfc.section.12.1.p.4"><ul><li>It is impossible for the server to accurately determine what might be "best" for any given user, since that would require complete knowledge of both the capabilities of the user agent and the intended use for the response (e.g., does the user want to view it on screen or print it on paper?);</li><li>Having the user agent describe its capabilities in every request can be both very inefficient (given that only a small percentage of responses have multiple representations) and a potential risk to the user's privacy;</li><li>It complicates the implementation of an origin server and the algorithms for generating responses to a request; and,</li><li>It limits the reusability of responses for shared caching.</li></ul></div><div id="rfc.section.12.1.p.5"><p>A user agent cannot rely on proactive negotiation preferences being consistently honored, since the origin server might not implement proactive negotiation for the requested resource or might decide that sending a response that doesn't conform to the user agent's preferences is better than sending a <a href="##status.406" class="smpl">406 (Not Acceptable)</a> response.</p></div><div id="rfc.section.12.1.p.6"><p>A <a href="##field.vary" class="smpl">Vary</a> header field (<a href="##field.vary" id="rfc.xref.field.vary.1" title="Vary">Section 12.5.5</a>) is often sent in a response subject to proactive negotiation to indicate what parts of the request information were used in the selection algorithm.</p></div><div id="rfc.section.12.1.p.7"><p>The request header fields <a href="##field.accept" class="smpl">Accept</a>, <a href="##field.accept-charset" class="smpl">Accept-Charset</a>, <a href="##field.accept-encoding" class="smpl">Accept-Encoding</a>, and <a href="##field.accept-language" class="smpl">Accept-Language</a> are defined below for a user agent to engage in <a href="##proactive.negotiation" class="smpl">proactive negotiation</a> of the response content. The preferences sent in these fields apply to any content in the response, including representations of the target resource, representations of error or processing status, and potentially even the miscellaneous text strings that might appear within the protocol.</p></div></section><section id="reactive.negotiation"><h3 id="rfc.section.12.2"><a href="##rfc.section.12.2">12.2.</a>&nbsp;<a href="##reactive.negotiation">Reactive Negotiation</a></h3><div id="rfc.section.12.2.p.1"><p>With <dfn>reactive negotiation</dfn> (a.k.a., <dfn>agent-driven negotiation</dfn>), selection of content (regardless of the status code) is performed by the user agent after receiving an initial response. The mechanism for reactive negotiation might be as simple as a list of references to alternative representations.</p></div><div id="rfc.section.12.2.p.2"><p>If the user agent is not satisfied by the initial response content, it can perform a GET request on one or more of the alternative resources to obtain a different representation. Selection of such alternatives might be performed automatically (by the user agent) or manually (e.g., by the user selecting from a hypertext menu).</p></div><div id="rfc.section.12.2.p.3"><p>A server might choose not to send an initial representation, other than the list of alternatives, and thereby indicate that reactive negotiation by the user agent is preferred. For example, the alternatives listed in responses with the <a href="##status.300" class="smpl">300 (Multiple Choices)</a> and <a href="##status.406" class="smpl">406 (Not Acceptable)</a> status codes include information about available representations so that the user or user agent can react by making a selection.</p></div><div id="rfc.section.12.2.p.4"><p>Reactive negotiation is advantageous when the response would vary over commonly used dimensions (such as type, language, or encoding), when the origin server is unable to determine a user agent's capabilities from examining the request, and generally when public caches are used to distribute server load and reduce network usage.</p></div><div id="rfc.section.12.2.p.5"><p>Reactive negotiation suffers from the disadvantages of transmitting a list of alternatives to the user agent, which degrades user-perceived latency if transmitted in the header section, and needing a second request to obtain an alternate representation. Furthermore, this specification does not define a mechanism for supporting automatic selection, though it does not prevent such a mechanism from being developed.</p></div></section><section id="request.content.negotiation"><h3 id="rfc.section.12.3"><a href="##rfc.section.12.3">12.3.</a>&nbsp;<a href="##request.content.negotiation">Request Content Negotiation</a></h3><div id="rfc.section.12.3.p.1"><p>When content negotiation preferences are sent in a server's response, the listed preferences are called <dfn>request content negotiation</dfn> because they intend to influence selection of an appropriate content for subsequent requests to that resource. For example, the <a href="##field.accept" class="smpl">Accept</a> (<a href="##field.accept" id="rfc.xref.field.accept.3" title="Accept">Section 12.5.1</a>) and <a href="##field.accept-encoding" class="smpl">Accept-Encoding</a> (<a href="##field.accept-encoding" id="rfc.xref.field.accept-encoding.3" title="Accept-Encoding">Section 12.5.3</a>) header fields can be sent in a response to indicate preferred media types and content codings for subsequent requests to that resource.</p></div><div id="rfc.section.12.3.p.2"><p>Similarly, <a href="https://www.rfc-editor.org/rfc/rfc5789.html#section-3.1">Section 3.1</a> of <a href="##RFC5789" id="rfc.xref.RFC5789.1"><cite title="PATCH Method for HTTP">[RFC5789]</cite></a> defines the "Accept-Patch" response header field, which allows discovery of which content types are accepted in PATCH requests.</p></div></section><section id="conneg.features"><h3 id="rfc.section.12.4"><a href="##rfc.section.12.4">12.4.</a>&nbsp;<a href="##conneg.features">Content Negotiation Field Features</a></h3><section id="conneg.absent"><h4 id="rfc.section.12.4.1"><a href="##rfc.section.12.4.1">12.4.1.</a>&nbsp;<a href="##conneg.absent">Absence</a></h4><div id="rfc.section.12.4.1.p.1"><p>For each of the content negotiation fields, a request that does not contain the field implies that the sender has no preference on that dimension of negotiation.</p></div><div id="rfc.section.12.4.1.p.2"><p>If a content negotiation header field is present in a request and none of the available representations for the response can be considered acceptable according to it, the origin server can either honor the header field by sending a <a href="##status.406" class="smpl">406 (Not Acceptable)</a> response or disregard the header field by treating the response as if it is not subject to content negotiation for that request header field. This does not imply, however, that the client will be able to use the representation.</p></div><div id="rfc.section.12.4.1.p.3"><aside><div id="rfc.section.12.4.1.p.3.1"><p><b>Note:</b> A user agent sending these header fields makes it easier for a server to identify an individual by virtue of the user agent's request characteristics (<a href="##fingerprinting" title="Browser Fingerprinting">Section 17.13</a>).</p></div></aside></div></section><section id="quality.values"><h4 id="rfc.section.12.4.2"><a href="##rfc.section.12.4.2">12.4.2.</a>&nbsp;<a href="##quality.values">Quality Values</a></h4><div id="rfc.section.12.4.2.p.1"><p>The content negotiation fields defined by this specification use a common parameter, named "q" (case-insensitive), to assign a relative "weight" to the preference for that associated kind of content. This weight is referred to as a "quality value" (or "qvalue") because the same parameter name is often used within server configurations to assign a weight to the relative quality of the various representations that can be selected for a resource.</p></div><div id="rfc.section.12.4.2.p.2"><p>The weight is normalized to a real number in the range 0 through 1, where 0.001 is the least preferred and 1 is the most preferred; a value of 0 means "not acceptable". If no "q" parameter is present, the default weight is 1.</p></div><div id="rfc.section.12.4.2.p.3"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.106"></span><span id="rfc.iref.g.107"></span><span class="pln">  </span><a href="##quality.values" class="smpl"><span class="typ">weight</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><a href="##whitespace" class="smpl"><span class="typ">OWS</span></a><span class="pln"> </span><span class="str">";"</span><span class="pln"> </span><a href="##whitespace" class="smpl"><span class="typ">OWS</span></a><span class="pln"> </span><span class="str">"q="</span><span class="pln"> </span><a href="##quality.values" class="smpl"><span class="typ">qvalue</span></a><span class="pln">
  </span><a href="##quality.values" class="smpl"><span class="typ">qvalue</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="pun">(</span><span class="pln"> </span><span class="str">"0"</span><span class="pln"> </span><span class="pun">[</span><span class="pln"> </span><span class="str">"."</span><span class="pln"> 0</span><span class="pun">*</span><span class="pln">3</span><a href="##core.rules" class="smpl"><span class="typ">DIGIT</span></a><span class="pln"> </span><span class="pun">]</span><span class="pln"> </span><span class="pun">)</span><span class="pln">
         </span><span class="pun">/</span><span class="pln"> </span><span class="pun">(</span><span class="pln"> </span><span class="str">"1"</span><span class="pln"> </span><span class="pun">[</span><span class="pln"> </span><span class="str">"."</span><span class="pln"> 0</span><span class="pun">*</span><span class="pln">3</span><span class="pun">(</span><span class="str">"0"</span><span class="pun">)</span><span class="pln"> </span><span class="pun">]</span><span class="pln"> </span><span class="pun">)</span></pre></div><div id="rfc.section.12.4.2.p.4"><p>A sender of qvalue <em class="bcp14">MUST NOT</em> generate more than three digits after the decimal point. User configuration of these values ought to be limited in the same fashion.</p></div></section><section id="wildcard.values"><h4 id="rfc.section.12.4.3"><a href="##rfc.section.12.4.3">12.4.3.</a>&nbsp;<a href="##wildcard.values">Wildcard Values</a></h4><div id="rfc.section.12.4.3.p.1"><p>Most of these header fields, where indicated, define a wildcard value ("*") to select unspecified values. If no wildcard is present, values that are not explicitly mentioned in the field are considered unacceptable. Within <a href="##field.vary" class="smpl">Vary</a>, the wildcard value means that the variance is unlimited.</p></div><div id="rfc.section.12.4.3.p.2"><aside><div id="rfc.section.12.4.3.p.2.1"><p><b>Note:</b> In practice, using wildcards in content negotiation has limited practical value because it is seldom useful to say, for example, "I prefer image/* more or less than (some other specific value)". By sending Accept: */*;q=0, clients can explicitly request a <a href="##status.406" class="smpl">406 (Not Acceptable)</a> response if a more preferred format is not available, but they still need to be able to handle a different response since the server is allowed to ignore their preference.</p></div></aside></div></section></section><section id="conneg.fields"><h3 id="rfc.section.12.5"><a href="##rfc.section.12.5">12.5.</a>&nbsp;<a href="##conneg.fields">Content Negotiation Fields</a></h3><section id="field.accept"><h4 id="rfc.section.12.5.1"><a href="##rfc.section.12.5.1">12.5.1.</a>&nbsp;<a href="##field.accept">Accept</a></h4><div id="rfc.section.12.5.1.p.1"><p>The "Accept" header field can be used by user agents to specify their preferences regarding response media types. For example, Accept header fields can be used to indicate that the request is specifically limited to a small set of desired types, as in the case of a request for an in-line image.</p></div><div id="rfc.section.12.5.1.p.2"><p>When sent by a server in a response, Accept provides information about which content types are preferred in the content of a subsequent request to the same resource.</p></div><div id="rfc.section.12.5.1.p.3"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.108"></span><span id="rfc.iref.g.109"></span><span class="pln">  </span><a href="##field.accept" class="smpl"><span class="typ">Accept</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="pun">#(</span><span class="pln"> </span><a href="##field.accept" class="smpl"><span class="typ">media-range</span></a><span class="pln"> </span><span class="pun">[</span><span class="pln"> </span><a href="##quality.values" class="smpl"><span class="typ">weight</span></a><span class="pln"> </span><span class="pun">]</span><span class="pln"> </span><span class="pun">)</span><span class="pln">

  </span><a href="##field.accept" class="smpl"><span class="typ">media-range</span></a><span class="pln">    </span><span class="pun">=</span><span class="pln"> </span><span class="pun">(</span><span class="pln"> </span><span class="str">"*/*"</span><span class="pln">
                     </span><span class="pun">/</span><span class="pln"> </span><span class="pun">(</span><span class="pln"> </span><a href="##media.type" class="smpl"><span class="typ">type</span></a><span class="pln"> </span><span class="str">"/"</span><span class="pln"> </span><span class="str">"*"</span><span class="pln"> </span><span class="pun">)</span><span class="pln">
                     </span><span class="pun">/</span><span class="pln"> </span><span class="pun">(</span><span class="pln"> </span><a href="##media.type" class="smpl"><span class="typ">type</span></a><span class="pln"> </span><span class="str">"/"</span><span class="pln"> </span><a href="##media.type" class="smpl"><span class="typ">subtype</span></a><span class="pln"> </span><span class="pun">)</span><span class="pln">
                   </span><span class="pun">)</span><span class="pln"> </span><a href="##rule.parameter" class="smpl"><span class="typ">parameters</span></a>
</pre></div><div id="rfc.section.12.5.1.p.4"><p>The asterisk "*" character is used to group media types into ranges, with "*/*" indicating all media types and "type/*" indicating all subtypes of that type. The media-range can include media type parameters that are applicable to that range.</p></div><div id="rfc.section.12.5.1.p.5"><p>Each media-range might be followed by optional applicable media type parameters (e.g., <a href="##charset" class="smpl">charset</a>), followed by an optional "q" parameter for indicating a relative weight (<a href="##quality.values" title="Quality Values">Section 12.4.2</a>).</p></div><div id="rfc.section.12.5.1.p.6"><p>Previous specifications allowed additional extension parameters to appear after the weight parameter. The accept extension grammar (accept-params, accept-ext) has been removed because it had a complicated definition, was not being used in practice, and is more easily deployed through new header fields. Senders using weights <em class="bcp14">SHOULD</em> send "q" last (after all media-range parameters). Recipients <em class="bcp14">SHOULD</em> process any parameter named "q" as weight, regardless of parameter ordering.</p></div><div id="rfc.section.12.5.1.p.7"><aside><div id="rfc.section.12.5.1.p.7.1"><p><b>Note:</b> Use of the "q" parameter name to control content negotiation would interfere with any media type parameter having the same name. Hence, the media type registry disallows parameters named "q".</p></div></aside></div><div id="rfc.section.12.5.1.p.8"><p>The example</p></div><div id="rfc.section.12.5.1.p.9"><pre class="text">Accept: audio/*; q=0.2, audio/basic
</pre></div><div id="rfc.section.12.5.1.p.10"><p>is interpreted as "I prefer audio/basic, but send me any audio type if it is the best available after an 80% markdown in quality".</p></div><div id="rfc.section.12.5.1.p.11"><p>A more elaborate example is</p></div><div id="rfc.section.12.5.1.p.12"><pre class="text">Accept: text/plain; q=0.5, text/html,
       text/x-dvi; q=0.8, text/x-c
</pre></div><div id="rfc.section.12.5.1.p.13"><p>Verbally, this would be interpreted as "text/html and text/x-c are the equally preferred media types, but if they do not exist, then send the text/x-dvi representation, and if that does not exist, send the text/plain representation".</p></div><div id="rfc.section.12.5.1.p.14"><p>Media ranges can be overridden by more specific media ranges or specific media types. If more than one media range applies to a given type, the most specific reference has precedence. For example,</p></div><div id="rfc.section.12.5.1.p.15"><pre class="text">Accept: text/*, text/plain, text/plain;format=flowed, */*
</pre></div><div id="rfc.section.12.5.1.p.16" class="avoidbreakafter"><p>have the following precedence:</p></div><div id="rfc.section.12.5.1.p.17"><ol><li>text/plain;format=flowed</li><li>text/plain</li><li>text/*</li><li>*/*</li></ol></div><div id="rfc.section.12.5.1.p.18"><p>The media type quality factor associated with a given type is determined by finding the media range with the highest precedence that matches the type. For example,</p></div><div id="rfc.section.12.5.1.p.19"><pre class="text">Accept: text/*;q=0.3, text/plain;q=0.7, text/plain;format=flowed,
       text/plain;format=fixed;q=0.4, */*;q=0.5
</pre></div><div id="rfc.section.12.5.1.p.20" class="avoidbreakafter"><p>would cause the following values to be associated:</p></div><div class="table table-condensed table-striped"><table class="v3 tleft"><caption>Table 5</caption><thead><tr><th class="text-left">Media Type</th><th class="text-left">Quality Value</th></tr></thead><tbody><tr><td class="text-left">text/plain;format=flowed</td><td class="text-left">1</td></tr><tr><td class="text-left">text/plain</td><td class="text-left">0.7</td></tr><tr><td class="text-left">text/html</td><td class="text-left">0.3</td></tr><tr><td class="text-left">image/jpeg</td><td class="text-left">0.5</td></tr><tr><td class="text-left">text/plain;format=fixed</td><td class="text-left">0.4</td></tr><tr><td class="text-left">text/html;level=3</td><td class="text-left">0.7</td></tr></tbody></table></div><div id="rfc.section.12.5.1.p.21"><aside><div id="rfc.section.12.5.1.p.21.1"><p><b>Note:</b> A user agent might be provided with a default set of quality values for certain media ranges. However, unless the user agent is a closed system that cannot interact with other rendering agents, this default set ought to be configurable by the user.</p></div></aside></div></section><section id="field.accept-charset"><h4 id="rfc.section.12.5.2"><a href="##rfc.section.12.5.2">12.5.2.</a>&nbsp;<a href="##field.accept-charset">Accept-Charset</a></h4><div id="rfc.iref.f.5"></div><div id="rfc.iref.h.2"></div><div id="rfc.iref.a.2"></div><div id="rfc.section.12.5.2.p.1"><p>The "Accept-Charset" header field can be sent by a user agent to indicate its preferences for charsets in textual response content. For example, this field allows user agents capable of understanding more comprehensive or special-purpose charsets to signal that capability to an origin server that is capable of representing information in those charsets.</p></div><div id="rfc.section.12.5.2.p.2"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.110"></span><span class="pln">  </span><a href="##field.accept-charset" class="smpl"><span class="typ">Accept-Charset</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="pun">#(</span><span class="pln"> </span><span class="pun">(</span><span class="pln"> </span><a href="##rule.token.separators" class="smpl"><span class="typ">token</span></a><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="str">"*"</span><span class="pln"> </span><span class="pun">)</span><span class="pln"> </span><span class="pun">[</span><span class="pln"> </span><a href="##quality.values" class="smpl"><span class="typ">weight</span></a><span class="pln"> </span><span class="pun">]</span><span class="pln"> </span><span class="pun">)</span></pre></div><div id="rfc.section.12.5.2.p.3"><p>Charset names are defined in <a href="##charset" title="Charset">Section 8.3.2</a>. A user agent <em class="bcp14">MAY</em> associate a quality value with each charset to indicate the user's relative preference for that charset, as defined in <a href="##quality.values" title="Quality Values">Section 12.4.2</a>. An example is</p></div><div id="rfc.section.12.5.2.p.4"><pre class="text">Accept-Charset: iso-8859-5, unicode-1-1;q=0.8
</pre></div><div id="rfc.section.12.5.2.p.5"><p>The special value "*", if present in the Accept-Charset header field, matches every charset that is not mentioned elsewhere in the field.</p></div><div id="rfc.section.12.5.2.p.6"><aside><div id="rfc.section.12.5.2.p.6.1"><p><b>Note:</b> Accept-Charset is deprecated because UTF-8 has become nearly ubiquitous and sending a detailed list of user-preferred charsets wastes bandwidth, increases latency, and makes passive fingerprinting far too easy (<a href="##fingerprinting" title="Browser Fingerprinting">Section 17.13</a>). Most general-purpose user agents do not send Accept-Charset unless specifically configured to do so.</p></div></aside></div></section><section id="field.accept-encoding"><h4 id="rfc.section.12.5.3"><a href="##rfc.section.12.5.3">12.5.3.</a>&nbsp;<a href="##field.accept-encoding">Accept-Encoding</a></h4><div id="rfc.section.12.5.3.p.1"><p>The "Accept-Encoding" header field can be used to indicate preferences regarding the use of content codings (<a href="##content.codings" title="Content Codings">Section 8.4.1</a>).</p></div><div id="rfc.section.12.5.3.p.2"><p>When sent by a user agent in a request, Accept-Encoding indicates the content codings acceptable in a response.</p></div><div id="rfc.section.12.5.3.p.3"><p>When sent by a server in a response, Accept-Encoding provides information about which content codings are preferred in the content of a subsequent request to the same resource.</p></div><div id="rfc.section.12.5.3.p.4"><p>An "identity" token is used as a synonym for "no encoding" in order to communicate when no encoding is preferred.</p></div><div id="rfc.section.12.5.3.p.5"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.111"></span><span id="rfc.iref.g.112"></span><span class="pln">  </span><a href="##field.accept-encoding" class="smpl"><span class="typ">Accept-Encoding</span></a><span class="pln">  </span><span class="pun">=</span><span class="pln"> </span><span class="pun">#(</span><span class="pln"> </span><a href="##field.accept-encoding" class="smpl"><span class="typ">codings</span></a><span class="pln"> </span><span class="pun">[</span><span class="pln"> </span><a href="##quality.values" class="smpl"><span class="typ">weight</span></a><span class="pln"> </span><span class="pun">]</span><span class="pln"> </span><span class="pun">)</span><span class="pln">
  </span><a href="##field.accept-encoding" class="smpl"><span class="typ">codings</span></a><span class="pln">          </span><span class="pun">=</span><span class="pln"> </span><a href="##content.codings" class="smpl"><span class="typ">content-coding</span></a><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="str">"identity"</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="str">"*"</span></pre></div><div id="rfc.section.12.5.3.p.6"><p>Each codings value <em class="bcp14">MAY</em> be given an associated quality value (weight) representing the preference for that encoding, as defined in <a href="##quality.values" title="Quality Values">Section 12.4.2</a>. The asterisk "*" symbol in an Accept-Encoding field matches any available content coding not explicitly listed in the field.</p></div><div id="rfc.section.12.5.3.p.7" class="avoidbreakafter"><p>Examples:</p></div><div id="rfc.section.12.5.3.p.8"><pre class="text">Accept-Encoding: compress, gzip
Accept-Encoding:
Accept-Encoding: *
Accept-Encoding: compress;q=0.5, gzip;q=1.0
Accept-Encoding: gzip;q=1.0, identity; q=0.5, *;q=0
</pre></div><div id="rfc.section.12.5.3.p.9" class="avoidbreakafter"><p>A server tests whether a content coding for a given representation is acceptable using these rules:</p></div><div id="rfc.section.12.5.3.p.10"><ol><li>If no Accept-Encoding header field is in the request, any content coding is considered acceptable by the user agent.</li><li>If the representation has no content coding, then it is acceptable by default unless specifically excluded by the Accept-Encoding header field stating either "identity;q=0" or "*;q=0" without a more specific entry for "identity".</li><li>If the representation's content coding is one of the content codings listed in the Accept-Encoding field value, then it is acceptable unless it is accompanied by a qvalue of 0. (As defined in <a href="##quality.values" title="Quality Values">Section 12.4.2</a>, a qvalue of 0 means "not acceptable".)</li></ol></div><div id="rfc.section.12.5.3.p.11"><p>A representation could be encoded with multiple content codings. However, most content codings are alternative ways to accomplish the same purpose (e.g., data compression). When selecting between multiple content codings that have the same purpose, the acceptable content coding with the highest non-zero qvalue is preferred.</p></div><div id="rfc.section.12.5.3.p.12"><p>An Accept-Encoding header field with a field value that is empty implies that the user agent does not want any content coding in response. If a non-empty Accept-Encoding header field is present in a request and none of the available representations for the response have a content coding that is listed as acceptable, the origin server <em class="bcp14">SHOULD</em> send a response without any content coding unless the identity coding is indicated as unacceptable.</p></div><div id="rfc.section.12.5.3.p.13"><p>When the Accept-Encoding header field is present in a response, it indicates what content codings the resource was willing to accept in the associated request. The field value is evaluated the same way as in a request.</p></div><div id="rfc.section.12.5.3.p.14"><p>Note that this information is specific to the associated request; the set of supported encodings might be different for other resources on the same server and could change over time or depend on other aspects of the request (such as the request method).</p></div><div id="rfc.section.12.5.3.p.15"><p>Servers that fail a request due to an unsupported content coding ought to respond with a <a href="##status.415" class="smpl">415 (Unsupported Media Type)</a> status and include an Accept-Encoding header field in that response, allowing clients to distinguish between issues related to content codings and media types. In order to avoid confusion with issues related to media types, servers that fail a request with a 415 status for reasons unrelated to content codings <em class="bcp14">MUST NOT</em> include the Accept-Encoding header field.</p></div><div id="rfc.section.12.5.3.p.16"><p>The most common use of Accept-Encoding is in responses with a <a href="##status.415" class="smpl">415 (Unsupported Media Type)</a> status code, in response to optimistic use of a content coding by clients. However, the header field can also be used to indicate to clients that content codings are supported in order to optimize future interactions. For example, a resource might include it in a <a href="##status.2xx" class="smpl">2xx (Successful)</a> response when the request content was big enough to justify use of a compression coding but the client failed do so.</p></div></section><section id="field.accept-language"><h4 id="rfc.section.12.5.4"><a href="##rfc.section.12.5.4">12.5.4.</a>&nbsp;<a href="##field.accept-language">Accept-Language</a></h4><div id="rfc.section.12.5.4.p.1"><p>The "Accept-Language" header field can be used by user agents to indicate the set of natural languages that are preferred in the response. Language tags are defined in <a href="##language.tags" title="Language Tags">Section 8.5.1</a>.</p></div><div id="rfc.section.12.5.4.p.2"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.113"></span><span id="rfc.iref.g.114"></span><span class="pln">  </span><a href="##field.accept-language" class="smpl"><span class="typ">Accept-Language</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="pun">#(</span><span class="pln"> </span><a href="##field.accept-language" class="smpl"><span class="typ">language-range</span></a><span class="pln"> </span><span class="pun">[</span><span class="pln"> </span><a href="##quality.values" class="smpl"><span class="typ">weight</span></a><span class="pln"> </span><span class="pun">]</span><span class="pln"> </span><span class="pun">)</span><span class="pln">
  </span><a href="##field.accept-language" class="smpl"><span class="typ">language-range</span></a><span class="pln">  </span><span class="pun">=</span><span class="pln">
            </span><span class="nocode">&lt;language-range, see </span><a href="##RFC4647" id="rfc.xref.RFC4647.1"><cite title="Matching of Language Tags"><span class="nocode">[RFC4647]</span></cite></a><span class="nocode">, </span><a href="https://www.rfc-editor.org/rfc/rfc4647.html#section-2.1"><span class="nocode">Section 2.1</span></a><span class="nocode">&gt;</span></pre></div><div id="rfc.section.12.5.4.p.3"><p>Each language-range can be given an associated quality value representing an estimate of the user's preference for the languages specified by that range, as defined in <a href="##quality.values" title="Quality Values">Section 12.4.2</a>. For example,</p></div><div id="rfc.section.12.5.4.p.4"><pre class="text">Accept-Language: da, en-gb;q=0.8, en;q=0.7
</pre></div><div id="rfc.section.12.5.4.p.5"><p>would mean: "I prefer Danish, but will accept British English and other types of English".</p></div><div id="rfc.section.12.5.4.p.6"><p>Note that some recipients treat the order in which language tags are listed as an indication of descending priority, particularly for tags that are assigned equal quality values (no value is the same as q=1). However, this behavior cannot be relied upon. For consistency and to maximize interoperability, many user agents assign each language tag a unique quality value while also listing them in order of decreasing quality. Additional discussion of language priority lists can be found in <a href="https://www.rfc-editor.org/rfc/rfc4647.html#section-2.3">Section 2.3</a> of <a href="##RFC4647" id="rfc.xref.RFC4647.2"><cite title="Matching of Language Tags">[RFC4647]</cite></a>.</p></div><div id="rfc.section.12.5.4.p.7"><p>For matching, <a href="https://www.rfc-editor.org/rfc/rfc4647.html#section-3">Section 3</a> of <a href="##RFC4647" id="rfc.xref.RFC4647.3"><cite title="Matching of Language Tags">[RFC4647]</cite></a> defines several matching schemes. Implementations can offer the most appropriate matching scheme for their requirements. The "Basic Filtering" scheme (<a href="##RFC4647" id="rfc.xref.RFC4647.4"><cite title="Matching of Language Tags">[RFC4647]</cite></a>, <a href="https://www.rfc-editor.org/rfc/rfc4647.html#section-3.3.1">Section 3.3.1</a>) is identical to the matching scheme that was previously defined for HTTP in <a href="https://www.rfc-editor.org/rfc/rfc2616.html#section-14.4">Section 14.4</a> of <a href="##RFC2616" id="rfc.xref.RFC2616.3"><cite title="Hypertext Transfer Protocol -- HTTP/1.1">[RFC2616]</cite></a>.</p></div><div id="rfc.section.12.5.4.p.8"><p>It might be contrary to the privacy expectations of the user to send an Accept-Language header field with the complete linguistic preferences of the user in every request (<a href="##fingerprinting" title="Browser Fingerprinting">Section 17.13</a>).</p></div><div id="rfc.section.12.5.4.p.9"><p>Since intelligibility is highly dependent on the individual user, user agents need to allow user control over the linguistic preference (either through configuration of the user agent itself or by defaulting to a user controllable system setting). A user agent that does not provide such control to the user <em class="bcp14">MUST NOT</em> send an Accept-Language header field.</p></div><div id="rfc.section.12.5.4.p.10"><aside><div id="rfc.section.12.5.4.p.10.1"><p><b>Note:</b> User agents ought to provide guidance to users when setting a preference, since users are rarely familiar with the details of language matching as described above. For example, users might assume that on selecting "en-gb", they will be served any kind of English document if British English is not available. A user agent might suggest, in such a case, to add "en" to the list for better matching behavior.</p></div></aside></div></section><section id="field.vary"><h4 id="rfc.section.12.5.5"><a href="##rfc.section.12.5.5">12.5.5.</a>&nbsp;<a href="##field.vary">Vary</a></h4><div id="rfc.section.12.5.5.p.1"><p>The "Vary" header field in a response describes what parts of a request message, aside from the method and target URI, might have influenced the origin server's process for selecting the content of this response.</p></div><div id="rfc.section.12.5.5.p.2"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.115"></span><span class="pln">  </span><a href="##field.vary" class="smpl"><span class="typ">Vary</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="pun">#(</span><span class="pln"> </span><span class="str">"*"</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><a href="##fields.names" class="smpl"><span class="typ">field-name</span></a><span class="pln"> </span><span class="pun">)</span></pre></div><div id="rfc.section.12.5.5.p.3"><p>A Vary field value is either the wildcard member "*" or a list of request field names, known as the selecting header fields, that might have had a role in selecting the representation for this response. Potential selecting header fields are not limited to fields defined by this specification.</p></div><div id="rfc.section.12.5.5.p.4"><p>A list containing the member "*" signals that other aspects of the request might have played a role in selecting the response representation, possibly including aspects outside the message syntax (e.g., the client's network address). A recipient will not be able to determine whether this response is appropriate for a later request without forwarding the request to the origin server. A proxy <em class="bcp14">MUST NOT</em> generate "*" in a Vary field value.</p></div><div id="rfc.section.12.5.5.p.5"><p>For example, a response that contains</p></div><div id="rfc.section.12.5.5.p.6"><pre class="text">Vary: accept-encoding, accept-language
</pre></div><div id="rfc.section.12.5.5.p.7"><p>indicates that the origin server might have used the request's <a href="##field.accept-encoding" class="smpl">Accept-Encoding</a> and <a href="##field.accept-language" class="smpl">Accept-Language</a> header fields (or lack thereof) as determining factors while choosing the content for this response.</p></div><div id="rfc.section.12.5.5.p.8" class="avoidbreakafter"><p>A Vary field containing a list of field names has two purposes:</p></div><div id="rfc.section.12.5.5.p.9"><ol><li><div><p>To inform cache recipients that they <em class="bcp14">MUST NOT</em> use this response to satisfy a later request unless the later request has the same values for the listed header fields as the original request (<a href="https://httpwg.org/specs/rfc9111.html#caching.negotiated.responses" title="Calculating Cache Keys with the Vary Header Field">Section 4.1</a> of <a href="##CACHING" id="rfc.xref.CACHING.21"><cite title="HTTP Caching">[CACHING]</cite></a>) or reuse of the response has been validated by the origin server. In other words, Vary expands the cache key required to match a new request to the stored cache entry.</p></div> </li><li><div><p>To inform user agent recipients that this response was subject to content negotiation (<a href="##content.negotiation" title="Content Negotiation">Section 12</a>) and a different representation might be sent in a subsequent request if other values are provided in the listed header fields (<a href="##proactive.negotiation" class="smpl">proactive negotiation</a>).</p></div> </li></ol></div><div id="rfc.section.12.5.5.p.10"><p>An origin server <em class="bcp14">SHOULD</em> generate a Vary header field on a cacheable response when it wishes that response to be selectively reused for subsequent requests. Generally, that is the case when the response content has been tailored to better fit the preferences expressed by those selecting header fields, such as when an origin server has selected the response's language based on the request's <a href="##field.accept-language" class="smpl">Accept-Language</a> header field.</p></div><div id="rfc.section.12.5.5.p.11"><p>Vary might be elided when an origin server considers variance in content selection to be less significant than Vary's performance impact on caching, particularly when reuse is already limited by cache response directives (<a href="https://httpwg.org/specs/rfc9111.html#field.cache-control" title="Cache-Control">Section 5.2</a> of <a href="##CACHING" id="rfc.xref.CACHING.22"><cite title="HTTP Caching">[CACHING]</cite></a>).</p></div><div id="rfc.section.12.5.5.p.12"><p>There is no need to send the Authorization field name in Vary because reuse of that response for a different user is prohibited by the field definition (<a href="##field.authorization" id="rfc.xref.field.authorization.2" title="Authorization">Section 11.6.2</a>). Likewise, if the response content has been selected or influenced by network region, but the origin server wants the cached response to be reused even if recipients move from one region to another, then there is no need for the origin server to indicate such variance in Vary.</p></div></section></section></section><section id="conditional.requests"><h2 id="rfc.section.13"><a href="##rfc.section.13">13.</a>&nbsp;<a href="##conditional.requests">Conditional Requests</a></h2><div id="rfc.section.13.p.1"><p>A conditional request is an HTTP request with one or more request header fields that indicate a precondition to be tested before applying the request method to the target resource. <a href="##evaluation" title="Evaluation of Preconditions">Section 13.2</a> defines when to evaluate preconditions and their order of precedence when more than one precondition is present.</p></div><div id="rfc.section.13.p.2"><p>Conditional GET requests are the most efficient mechanism for HTTP cache updates <a href="##CACHING" id="rfc.xref.CACHING.23"><cite title="HTTP Caching">[CACHING]</cite></a>. Conditionals can also be applied to state-changing methods, such as PUT and DELETE, to prevent the "lost update" problem: one client accidentally overwriting the work of another client that has been acting in parallel.</p></div><section id="preconditions"><h3 id="rfc.section.13.1"><a href="##rfc.section.13.1">13.1.</a>&nbsp;<a href="##preconditions">Preconditions</a></h3><div id="rfc.section.13.1.p.1"><p>Preconditions are usually defined with respect to a state of the target resource as a whole (its current value set) or the state as observed in a previously obtained representation (one value in that set). If a resource has multiple current representations, each with its own observable state, a precondition will assume that the mapping of each request to a <a href="##selected.representation" class="smpl">selected representation</a> (<a href="##representations" title="Representations">Section 3.2</a>) is consistent over time. Regardless, if the mapping is inconsistent or the server is unable to select an appropriate representation, then no harm will result when the precondition evaluates to false.</p></div><div id="rfc.section.13.1.p.2"><p>Each precondition defined below consists of a comparison between a set of validators obtained from prior representations of the target resource to the current state of validators for the selected representation (<a href="##response.validator" title="Validator Fields">Section 8.8</a>). Hence, these preconditions evaluate whether the state of the target resource has changed since a given state known by the client. The effect of such an evaluation depends on the method semantics and choice of conditional, as defined in <a href="##evaluation" title="Evaluation of Preconditions">Section 13.2</a>.</p></div><div id="rfc.section.13.1.p.3"><p>Other preconditions, defined by other specifications as extension fields, might place conditions on all recipients, on the state of the target resource in general, or on a group of resources. For instance, the "If" header field in WebDAV can make a request conditional on various aspects of multiple resources, such as locks, if the recipient understands and implements that field (<a href="##WEBDAV" id="rfc.xref.WEBDAV.2"><cite title="HTTP Extensions for Web Distributed Authoring and Versioning (WebDAV)">[WEBDAV]</cite></a>, <a href="https://www.rfc-editor.org/rfc/rfc4918.html#section-10.4">Section 10.4</a>).</p></div><div id="rfc.section.13.1.p.4"><p>Extensibility of preconditions is only possible when the precondition can be safely ignored if unknown (like <a href="##field.if-modified-since" class="smpl">If-Modified-Since</a>), when deployment can be assumed for a given use case, or when implementation is signaled by some other property of the target resource. This encourages a focus on mutually agreed deployment of common standards.</p></div><section id="field.if-match"><h4 id="rfc.section.13.1.1"><a href="##rfc.section.13.1.1">13.1.1.</a>&nbsp;<a href="##field.if-match">If-Match</a></h4><div id="rfc.section.13.1.1.p.1"><p>The "If-Match" header field makes the request method conditional on the recipient origin server either having at least one current representation of the target resource, when the field value is "*", or having a current representation of the target resource that has an entity tag matching a member of the list of entity tags provided in the field value.</p></div><div id="rfc.section.13.1.1.p.2"><p>An origin server <em class="bcp14">MUST</em> use the strong comparison function when comparing entity tags for If-Match (<a href="##entity.tag.comparison" title="Comparison">Section 8.8.3.2</a>), since the client intends this precondition to prevent the method from being applied if there have been any changes to the representation data.</p></div><div id="rfc.section.13.1.1.p.3"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.116"></span><span class="pln">  </span><a href="##field.if-match" class="smpl"><span class="typ">If-Match</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="str">"*"</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="pun">#</span><a href="##field.etag" class="smpl"><span class="typ">entity-tag</span></a>
</pre></div><div id="rfc.section.13.1.1.p.4" class="avoidbreakafter"><p>Examples:</p></div><div id="rfc.section.13.1.1.p.5"><pre class="text">If-Match: "xyzzy"
If-Match: "xyzzy", "r2d2xxxx", "c3piozzzz"
If-Match: *
</pre></div><div id="rfc.section.13.1.1.p.6"><p>If-Match is most often used with state-changing methods (e.g., POST, PUT, DELETE) to prevent accidental overwrites when multiple user agents might be acting in parallel on the same resource (i.e., to prevent the "lost update" problem). In general, it can be used with any method that involves the selection or modification of a representation to abort the request if the <a href="##selected.representation" class="smpl">selected representation</a>'s current entity tag is not a member within the If-Match field value.</p></div><div id="rfc.section.13.1.1.p.7"><p>When an origin server receives a request that selects a representation and that request includes an If-Match header field, the origin server <em class="bcp14">MUST</em> evaluate the If-Match condition per <a href="##evaluation" title="Evaluation of Preconditions">Section 13.2</a> prior to performing the method.</p></div><div id="rfc.section.13.1.1.p.8" class="avoidbreakafter"><p>To evaluate a received If-Match header field:</p></div><div id="rfc.section.13.1.1.p.9"><ol><li>If the field value is "*", the condition is true if the origin server has a current representation for the target resource.</li><li>If the field value is a list of entity tags, the condition is true if any of the listed tags match the entity tag of the selected representation.</li><li>Otherwise, the condition is false.</li></ol></div><div id="rfc.section.13.1.1.p.10"><p>An origin server that evaluates an If-Match condition <em class="bcp14">MUST NOT</em> perform the requested method if the condition evaluates to false. Instead, the origin server <em class="bcp14">MAY</em> indicate that the conditional request failed by responding with a <a href="##status.412" class="smpl">412 (Precondition Failed)</a> status code. Alternatively, if the request is a state-changing operation that appears to have already been applied to the selected representation, the origin server <em class="bcp14">MAY</em> respond with a <a href="##status.2xx" class="smpl">2xx (Successful)</a> status code (i.e., the change requested by the user agent has already succeeded, but the user agent might not be aware of it, perhaps because the prior response was lost or an equivalent change was made by some other user agent).</p></div><div id="rfc.section.13.1.1.p.11"><p>Allowing an origin server to send a success response when a change request appears to have already been applied is more efficient for many authoring use cases, but comes with some risk if multiple user agents are making change requests that are very similar but not cooperative. For example, multiple user agents writing to a common resource as a semaphore (e.g., a nonatomic increment) are likely to collide and potentially lose important state transitions. For those kinds of resources, an origin server is better off being stringent in sending 412 for every failed precondition on an unsafe method. In other cases, excluding the ETag field from a success response might encourage the user agent to perform a GET as its next request to eliminate confusion about the resource's current state.</p></div><div id="rfc.section.13.1.1.p.12"><p>A client <em class="bcp14">MAY</em> send an If-Match header field in a <a href="##GET" class="smpl" id="rfc.extref.g.6">GET</a> request to indicate that it would prefer a <a href="##status.412" class="smpl">412 (Precondition Failed)</a> response if the selected representation does not match. However, this is only useful in range requests (<a href="##range.requests" title="Range Requests">Section 14</a>) for completing a previously received partial representation when there is no desire for a new representation. <a href="##field.if-range" class="smpl">If-Range</a> (<a href="##field.if-range" id="rfc.xref.field.if-range.1" title="If-Range">Section 13.1.5</a>) is better suited for range requests when the client prefers to receive a new representation.</p></div><div id="rfc.section.13.1.1.p.13"><p>A cache or intermediary <em class="bcp14">MAY</em> ignore If-Match because its interoperability features are only necessary for an origin server.</p></div><div id="rfc.section.13.1.1.p.14"><p>Note that an If-Match header field with a list value containing "*" and other values (including other instances of "*") is syntactically invalid (therefore not allowed to be generated) and furthermore is unlikely to be interoperable.</p></div></section><section id="field.if-none-match"><h4 id="rfc.section.13.1.2"><a href="##rfc.section.13.1.2">13.1.2.</a>&nbsp;<a href="##field.if-none-match">If-None-Match</a></h4><div id="rfc.section.13.1.2.p.1"><p>The "If-None-Match" header field makes the request method conditional on a recipient cache or origin server either not having any current representation of the target resource, when the field value is "*", or having a <a href="##selected.representation" class="smpl">selected representation</a> with an entity tag that does not match any of those listed in the field value.</p></div><div id="rfc.section.13.1.2.p.2"><p>A recipient <em class="bcp14">MUST</em> use the weak comparison function when comparing entity tags for If-None-Match (<a href="##entity.tag.comparison" title="Comparison">Section 8.8.3.2</a>), since weak entity tags can be used for cache validation even if there have been changes to the representation data.</p></div><div id="rfc.section.13.1.2.p.3"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.117"></span><span class="pln">  </span><a href="##field.if-none-match" class="smpl"><span class="typ">If-None-Match</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="str">"*"</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="pun">#</span><a href="##field.etag" class="smpl"><span class="typ">entity-tag</span></a>
</pre></div><div id="rfc.section.13.1.2.p.4" class="avoidbreakafter"><p>Examples:</p></div><div id="rfc.section.13.1.2.p.5"><pre class="text">If-None-Match: "xyzzy"
If-None-Match: W/"xyzzy"
If-None-Match: "xyzzy", "r2d2xxxx", "c3piozzzz"
If-None-Match: W/"xyzzy", W/"r2d2xxxx", W/"c3piozzzz"
If-None-Match: *
</pre></div><div id="rfc.section.13.1.2.p.6"><p>If-None-Match is primarily used in conditional GET requests to enable efficient updates of cached information with a minimum amount of transaction overhead. When a client desires to update one or more stored responses that have entity tags, the client <em class="bcp14">SHOULD</em> generate an If-None-Match header field containing a list of those entity tags when making a GET request; this allows recipient servers to send a <a href="##status.304" class="smpl">304 (Not Modified)</a> response to indicate when one of those stored responses matches the selected representation.</p></div><div id="rfc.section.13.1.2.p.7"><p>If-None-Match can also be used with a value of "*" to prevent an unsafe request method (e.g., PUT) from inadvertently modifying an existing representation of the target resource when the client believes that the resource does not have a current representation (<a href="##safe.methods" title="Safe Methods">Section 9.2.1</a>). This is a variation on the "lost update" problem that might arise if more than one client attempts to create an initial representation for the target resource.</p></div><div id="rfc.section.13.1.2.p.8"><p>When an origin server receives a request that selects a representation and that request includes an If-None-Match header field, the origin server <em class="bcp14">MUST</em> evaluate the If-None-Match condition per <a href="##evaluation" title="Evaluation of Preconditions">Section 13.2</a> prior to performing the method.</p></div><div id="rfc.section.13.1.2.p.9" class="avoidbreakafter"><p>To evaluate a received If-None-Match header field:</p></div><div id="rfc.section.13.1.2.p.10"><ol><li>If the field value is "*", the condition is false if the origin server has a current representation for the target resource.</li><li>If the field value is a list of entity tags, the condition is false if one of the listed tags matches the entity tag of the selected representation.</li><li>Otherwise, the condition is true.</li></ol></div><div id="rfc.section.13.1.2.p.11"><p>An origin server that evaluates an If-None-Match condition <em class="bcp14">MUST NOT</em> perform the requested method if the condition evaluates to false; instead, the origin server <em class="bcp14">MUST</em> respond with either a) the <a href="##status.304" class="smpl">304 (Not Modified)</a> status code if the request method is GET or HEAD or b) the <a href="##status.412" class="smpl">412 (Precondition Failed)</a> status code for all other request methods.</p></div><div id="rfc.section.13.1.2.p.12"><p>Requirements on cache handling of a received If-None-Match header field are defined in <a href="https://httpwg.org/specs/rfc9111.html#validation.received" title="Handling a Received Validation Request">Section 4.3.2</a> of <a href="##CACHING" id="rfc.xref.CACHING.24"><cite title="HTTP Caching">[CACHING]</cite></a>.</p></div><div id="rfc.section.13.1.2.p.13"><p>Note that an If-None-Match header field with a list value containing "*" and other values (including other instances of "*") is syntactically invalid (therefore not allowed to be generated) and furthermore is unlikely to be interoperable.</p></div></section><section id="field.if-modified-since"><h4 id="rfc.section.13.1.3"><a href="##rfc.section.13.1.3">13.1.3.</a>&nbsp;<a href="##field.if-modified-since">If-Modified-Since</a></h4><div id="rfc.section.13.1.3.p.1"><p>The "If-Modified-Since" header field makes a GET or HEAD request method conditional on the <a href="##selected.representation" class="smpl">selected representation</a>'s modification date being more recent than the date provided in the field value. Transfer of the selected representation's data is avoided if that data has not changed.</p></div><div id="rfc.section.13.1.3.p.2"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.118"></span><span class="pln">  </span><a href="##field.if-modified-since" class="smpl"><span class="typ">If-Modified-Since</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><a href="##http.date" class="smpl"><span class="typ">HTTP-date</span></a>
</pre></div><div id="rfc.section.13.1.3.p.3" class="avoidbreakafter"><p>An example of the field is:</p></div><div id="rfc.section.13.1.3.p.4"><pre class="text">If-Modified-Since: Sat, 29 Oct 1994 19:43:31 GMT
</pre></div><div id="rfc.section.13.1.3.p.5"><p>A recipient <em class="bcp14">MUST</em> ignore If-Modified-Since if the request contains an <a href="##field.if-none-match" class="smpl">If-None-Match</a> header field; the condition in <a href="##field.if-none-match" class="smpl">If-None-Match</a> is considered to be a more accurate replacement for the condition in If-Modified-Since, and the two are only combined for the sake of interoperating with older intermediaries that might not implement <a href="##field.if-none-match" class="smpl">If-None-Match</a>.</p></div><div id="rfc.section.13.1.3.p.6"><p>A recipient <em class="bcp14">MUST</em> ignore the If-Modified-Since header field if the received field value is not a valid HTTP-date, the field value has more than one member, or if the request method is neither GET nor HEAD.</p></div><div id="rfc.section.13.1.3.p.7"><p>A recipient <em class="bcp14">MUST</em> ignore the If-Modified-Since header field if the resource does not have a modification date available.</p></div><div id="rfc.section.13.1.3.p.8"><p>A recipient <em class="bcp14">MUST</em> interpret an If-Modified-Since field value's timestamp in terms of the origin server's clock.</p></div><div id="rfc.section.13.1.3.p.9"><p>If-Modified-Since is typically used for two distinct purposes: 1) to allow efficient updates of a cached representation that does not have an entity tag and 2) to limit the scope of a web traversal to resources that have recently changed.</p></div><div id="rfc.section.13.1.3.p.10"><p>When used for cache updates, a cache will typically use the value of the cached message's <a href="##field.last-modified" class="smpl">Last-Modified</a> header field to generate the field value of If-Modified-Since. This behavior is most interoperable for cases where clocks are poorly synchronized or when the server has chosen to only honor exact timestamp matches (due to a problem with Last-Modified dates that appear to go "back in time" when the origin server's clock is corrected or a representation is restored from an archived backup). However, caches occasionally generate the field value based on other data, such as the <a href="##field.date" class="smpl">Date</a> header field of the cached message or the clock time at which the message was received, particularly when the cached message does not contain a <a href="##field.last-modified" class="smpl">Last-Modified</a> header field.</p></div><div id="rfc.section.13.1.3.p.11"><p>When used for limiting the scope of retrieval to a recent time window, a user agent will generate an If-Modified-Since field value based on either its own clock or a <a href="##field.date" class="smpl">Date</a> header field received from the server in a prior response. Origin servers that choose an exact timestamp match based on the selected representation's <a href="##field.last-modified" class="smpl">Last-Modified</a> header field will not be able to help the user agent limit its data transfers to only those changed during the specified window.</p></div><div id="rfc.section.13.1.3.p.12"><p>When an origin server receives a request that selects a representation and that request includes an If-Modified-Since header field without an <a href="##field.if-none-match" class="smpl">If-None-Match</a> header field, the origin server <em class="bcp14">SHOULD</em> evaluate the If-Modified-Since condition per <a href="##evaluation" title="Evaluation of Preconditions">Section 13.2</a> prior to performing the method.</p></div><div id="rfc.section.13.1.3.p.13" class="avoidbreakafter"><p>To evaluate a received If-Modified-Since header field:</p></div><div id="rfc.section.13.1.3.p.14"><ol><li>If the selected representation's last modification date is earlier or equal to the date provided in the field value, the condition is false.</li><li>Otherwise, the condition is true.</li></ol></div><div id="rfc.section.13.1.3.p.15"><p>An origin server that evaluates an If-Modified-Since condition <em class="bcp14">SHOULD NOT</em> perform the requested method if the condition evaluates to false; instead, the origin server <em class="bcp14">SHOULD</em> generate a <a href="##status.304" class="smpl">304 (Not Modified)</a> response, including only those metadata that are useful for identifying or updating a previously cached response.</p></div><div id="rfc.section.13.1.3.p.16"><p>Requirements on cache handling of a received If-Modified-Since header field are defined in <a href="https://httpwg.org/specs/rfc9111.html#validation.received" title="Handling a Received Validation Request">Section 4.3.2</a> of <a href="##CACHING" id="rfc.xref.CACHING.25"><cite title="HTTP Caching">[CACHING]</cite></a>.</p></div></section><section id="field.if-unmodified-since"><h4 id="rfc.section.13.1.4"><a href="##rfc.section.13.1.4">13.1.4.</a>&nbsp;<a href="##field.if-unmodified-since">If-Unmodified-Since</a></h4><div id="rfc.section.13.1.4.p.1"><p>The "If-Unmodified-Since" header field makes the request method conditional on the <a href="##selected.representation" class="smpl">selected representation</a>'s last modification date being earlier than or equal to the date provided in the field value. This field accomplishes the same purpose as <a href="##field.if-match" class="smpl">If-Match</a> for cases where the user agent does not have an entity tag for the representation.</p></div><div id="rfc.section.13.1.4.p.2"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.119"></span><span class="pln">  </span><a href="##field.if-unmodified-since" class="smpl"><span class="typ">If-Unmodified-Since</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><a href="##http.date" class="smpl"><span class="typ">HTTP-date</span></a>
</pre></div><div id="rfc.section.13.1.4.p.3" class="avoidbreakafter"><p>An example of the field is:</p></div><div id="rfc.section.13.1.4.p.4"><pre class="text">If-Unmodified-Since: Sat, 29 Oct 1994 19:43:31 GMT
</pre></div><div id="rfc.section.13.1.4.p.5"><p>A recipient <em class="bcp14">MUST</em> ignore If-Unmodified-Since if the request contains an <a href="##field.if-match" class="smpl">If-Match</a> header field; the condition in <a href="##field.if-match" class="smpl">If-Match</a> is considered to be a more accurate replacement for the condition in If-Unmodified-Since, and the two are only combined for the sake of interoperating with older intermediaries that might not implement <a href="##field.if-match" class="smpl">If-Match</a>.</p></div><div id="rfc.section.13.1.4.p.6"><p>A recipient <em class="bcp14">MUST</em> ignore the If-Unmodified-Since header field if the received field value is not a valid HTTP-date (including when the field value appears to be a list of dates).</p></div><div id="rfc.section.13.1.4.p.7"><p>A recipient <em class="bcp14">MUST</em> ignore the If-Unmodified-Since header field if the resource does not have a modification date available.</p></div><div id="rfc.section.13.1.4.p.8"><p>A recipient <em class="bcp14">MUST</em> interpret an If-Unmodified-Since field value's timestamp in terms of the origin server's clock.</p></div><div id="rfc.section.13.1.4.p.9"><p>If-Unmodified-Since is most often used with state-changing methods (e.g., POST, PUT, DELETE) to prevent accidental overwrites when multiple user agents might be acting in parallel on a resource that does not supply entity tags with its representations (i.e., to prevent the "lost update" problem). In general, it can be used with any method that involves the selection or modification of a representation to abort the request if the <a href="##selected.representation" class="smpl">selected representation</a>'s last modification date has changed since the date provided in the If-Unmodified-Since field value.</p></div><div id="rfc.section.13.1.4.p.10"><p>When an origin server receives a request that selects a representation and that request includes an If-Unmodified-Since header field without an <a href="##field.if-match" class="smpl">If-Match</a> header field, the origin server <em class="bcp14">MUST</em> evaluate the If-Unmodified-Since condition per <a href="##evaluation" title="Evaluation of Preconditions">Section 13.2</a> prior to performing the method.</p></div><div id="rfc.section.13.1.4.p.11" class="avoidbreakafter"><p>To evaluate a received If-Unmodified-Since header field:</p></div><div id="rfc.section.13.1.4.p.12"><ol><li>If the selected representation's last modification date is earlier than or equal to the date provided in the field value, the condition is true.</li><li>Otherwise, the condition is false.</li></ol></div><div id="rfc.section.13.1.4.p.13"><p>An origin server that evaluates an If-Unmodified-Since condition <em class="bcp14">MUST NOT</em> perform the requested method if the condition evaluates to false. Instead, the origin server <em class="bcp14">MAY</em> indicate that the conditional request failed by responding with a <a href="##status.412" class="smpl">412 (Precondition Failed)</a> status code. Alternatively, if the request is a state-changing operation that appears to have already been applied to the selected representation, the origin server <em class="bcp14">MAY</em> respond with a <a href="##status.2xx" class="smpl">2xx (Successful)</a> status code (i.e., the change requested by the user agent has already succeeded, but the user agent might not be aware of it, perhaps because the prior response was lost or an equivalent change was made by some other user agent).</p></div><div id="rfc.section.13.1.4.p.14"><p>Allowing an origin server to send a success response when a change request appears to have already been applied is more efficient for many authoring use cases, but comes with some risk if multiple user agents are making change requests that are very similar but not cooperative. In those cases, an origin server is better off being stringent in sending 412 for every failed precondition on an unsafe method.</p></div><div id="rfc.section.13.1.4.p.15"><p>A client <em class="bcp14">MAY</em> send an If-Unmodified-Since header field in a <a href="##GET" class="smpl" id="rfc.extref.g.7">GET</a> request to indicate that it would prefer a <a href="##status.412" class="smpl">412 (Precondition Failed)</a> response if the selected representation has been modified. However, this is only useful in range requests (<a href="##range.requests" title="Range Requests">Section 14</a>) for completing a previously received partial representation when there is no desire for a new representation. <a href="##field.if-range" class="smpl">If-Range</a> (<a href="##field.if-range" id="rfc.xref.field.if-range.2" title="If-Range">Section 13.1.5</a>) is better suited for range requests when the client prefers to receive a new representation.</p></div><div id="rfc.section.13.1.4.p.16"><p>A cache or intermediary <em class="bcp14">MAY</em> ignore If-Unmodified-Since because its interoperability features are only necessary for an origin server.</p></div></section><section id="field.if-range"><h4 id="rfc.section.13.1.5"><a href="##rfc.section.13.1.5">13.1.5.</a>&nbsp;<a href="##field.if-range">If-Range</a></h4><div id="rfc.section.13.1.5.p.1"><p>The "If-Range" header field provides a special conditional request mechanism that is similar to the <a href="##field.if-match" class="smpl">If-Match</a> and <a href="##field.if-unmodified-since" class="smpl">If-Unmodified-Since</a> header fields but that instructs the recipient to ignore the <a href="##field.range" class="smpl">Range</a> header field if the validator doesn't match, resulting in transfer of the new <a href="##selected.representation" class="smpl">selected representation</a> instead of a <a href="##status.412" class="smpl">412 (Precondition Failed)</a> response.</p></div><div id="rfc.section.13.1.5.p.2"><p>If a client has a partial copy of a representation and wishes to have an up-to-date copy of the entire representation, it could use the <a href="##field.range" class="smpl">Range</a> header field with a conditional GET (using either or both of <a href="##field.if-unmodified-since" class="smpl">If-Unmodified-Since</a> and <a href="##field.if-match" class="smpl">If-Match</a>.) However, if the precondition fails because the representation has been modified, the client would then have to make a second request to obtain the entire current representation.</p></div><div id="rfc.section.13.1.5.p.3"><p>The "If-Range" header field allows a client to "short-circuit" the second request. Informally, its meaning is as follows: if the representation is unchanged, send me the part(s) that I am requesting in Range; otherwise, send me the entire representation.</p></div><div id="rfc.section.13.1.5.p.4"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.120"></span><span class="pln">  </span><a href="##field.if-range" class="smpl"><span class="typ">If-Range</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><a href="##field.etag" class="smpl"><span class="typ">entity-tag</span></a><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><a href="##http.date" class="smpl"><span class="typ">HTTP-date</span></a>
</pre></div><div id="rfc.section.13.1.5.p.5"><p>A valid <a href="##field.etag" class="smpl">entity-tag</a> can be distinguished from a valid <a href="##http.date" class="smpl">HTTP-date</a> by examining the first three characters for a DQUOTE.</p></div><div id="rfc.section.13.1.5.p.6"><p>A client <em class="bcp14">MUST NOT</em> generate an If-Range header field in a request that does not contain a <a href="##field.range" class="smpl">Range</a> header field. A server <em class="bcp14">MUST</em> ignore an If-Range header field received in a request that does not contain a <a href="##field.range" class="smpl">Range</a> header field. An origin server <em class="bcp14">MUST</em> ignore an If-Range header field received in a request for a target resource that does not support Range requests.</p></div><div id="rfc.section.13.1.5.p.7"><p>A client <em class="bcp14">MUST NOT</em> generate an If-Range header field containing an entity tag that is marked as weak. A client <em class="bcp14">MUST NOT</em> generate an If-Range header field containing an <a href="##http.date" class="smpl">HTTP-date</a> unless the client has no entity tag for the corresponding representation and the date is a strong validator in the sense defined by <a href="##lastmod.comparison" title="Comparison">Section 8.8.2.2</a>.</p></div><div id="rfc.section.13.1.5.p.8"><p>A server that receives an If-Range header field on a Range request <em class="bcp14">MUST</em> evaluate the condition per <a href="##evaluation" title="Evaluation of Preconditions">Section 13.2</a> prior to performing the method.</p></div><div id="rfc.section.13.1.5.p.9" class="avoidbreakafter"><p>To evaluate a received If-Range header field containing an <a href="##http.date" class="smpl">HTTP-date</a>:</p></div><div id="rfc.section.13.1.5.p.10"><ol><li>If the <a href="##http.date" class="smpl">HTTP-date</a> validator provided is not a strong validator in the sense defined by <a href="##lastmod.comparison" title="Comparison">Section 8.8.2.2</a>, the condition is false.</li><li>If the <a href="##http.date" class="smpl">HTTP-date</a> validator provided exactly matches the <a href="##field.last-modified" class="smpl">Last-Modified</a> field value for the selected representation, the condition is true.</li><li>Otherwise, the condition is false.</li></ol></div><div id="rfc.section.13.1.5.p.11" class="avoidbreakafter"><p>To evaluate a received If-Range header field containing an <a href="##field.etag" class="smpl">entity-tag</a>:</p></div><div id="rfc.section.13.1.5.p.12"><ol><li>If the <a href="##field.etag" class="smpl">entity-tag</a> validator provided exactly matches the <a href="##field.etag" class="smpl">ETag</a> field value for the selected representation using the strong comparison function (<a href="##entity.tag.comparison" title="Comparison">Section 8.8.3.2</a>), the condition is true.</li><li>Otherwise, the condition is false.</li></ol></div><div id="rfc.section.13.1.5.p.13"><p>A recipient of an If-Range header field <em class="bcp14">MUST</em> ignore the <a href="##field.range" class="smpl">Range</a> header field if the If-Range condition evaluates to false. Otherwise, the recipient <em class="bcp14">SHOULD</em> process the <a href="##field.range" class="smpl">Range</a> header field as requested.</p></div><div id="rfc.section.13.1.5.p.14"><p>Note that the If-Range comparison is by exact match, including when the validator is an <a href="##http.date" class="smpl">HTTP-date</a>, and so it differs from the "earlier than or equal to" comparison used when evaluating an <a href="##field.if-unmodified-since" class="smpl">If-Unmodified-Since</a> conditional.</p></div></section></section><section id="evaluation"><h3 id="rfc.section.13.2"><a href="##rfc.section.13.2">13.2.</a>&nbsp;<a href="##evaluation">Evaluation of Preconditions</a></h3><section id="when.to.evaluate"><h4 id="rfc.section.13.2.1"><a href="##rfc.section.13.2.1">13.2.1.</a>&nbsp;<a href="##when.to.evaluate">When to Evaluate</a></h4><div id="rfc.section.13.2.1.p.1"><p>Except when excluded below, a recipient cache or origin server <em class="bcp14">MUST</em> evaluate received request preconditions after it has successfully performed its normal request checks and just before it would process the request content (if any) or perform the action associated with the request method. A server <em class="bcp14">MUST</em> ignore all received preconditions if its response to the same request without those conditions, prior to processing the request content, would have been a status code other than a <a href="##status.2xx" class="smpl">2xx (Successful)</a> or <a href="##status.412" class="smpl">412 (Precondition Failed)</a>. In other words, redirects and failures that can be detected before significant processing occurs take precedence over the evaluation of preconditions.</p></div><div id="rfc.section.13.2.1.p.2"><p>A server that is not the origin server for the target resource and cannot act as a cache for requests on the target resource <em class="bcp14">MUST NOT</em> evaluate the conditional request header fields defined by this specification, and it <em class="bcp14">MUST</em> forward them if the request is forwarded, since the generating client intends that they be evaluated by a server that can provide a current representation. Likewise, a server <em class="bcp14">MUST</em> ignore the conditional request header fields defined by this specification when received with a request method that does not involve the selection or modification of a <a href="##selected.representation" class="smpl">selected representation</a>, such as CONNECT, OPTIONS, or TRACE.</p></div><div id="rfc.section.13.2.1.p.3"><p>Note that protocol extensions can modify the conditions under which preconditions are evaluated or the consequences of their evaluation. For example, the immutable cache directive (defined by <a href="##RFC8246" id="rfc.xref.RFC8246.1"><cite title="HTTP Immutable Responses">[RFC8246]</cite></a>) instructs caches to forgo forwarding conditional requests when they hold a fresh response.</p></div><div id="rfc.section.13.2.1.p.4"><p>Although conditional request header fields are defined as being usable with the HEAD method (to keep HEAD's semantics consistent with those of GET), there is no point in sending a conditional HEAD because a successful response is around the same size as a <a href="##status.304" class="smpl">304 (Not Modified)</a> response and more useful than a <a href="##status.412" class="smpl">412 (Precondition Failed)</a> response.</p></div></section><section id="precedence"><h4 id="rfc.section.13.2.2"><a href="##rfc.section.13.2.2">13.2.2.</a>&nbsp;<a href="##precedence">Precedence of Preconditions</a></h4><div id="rfc.section.13.2.2.p.1"><p>When more than one conditional request header field is present in a request, the order in which the fields are evaluated becomes important. In practice, the fields defined in this document are consistently implemented in a single, logical order, since "lost update" preconditions have more strict requirements than cache validation, a validated cache is more efficient than a partial response, and entity tags are presumed to be more accurate than date validators.</p></div><div id="rfc.section.13.2.2.p.2" class="avoidbreakafter"><p>A recipient cache or origin server <em class="bcp14">MUST</em> evaluate the request preconditions defined by this specification in the following order:</p></div><div id="rfc.section.13.2.2.p.3"><ol><li id="precedence1"><div class="avoidbreakafter"><p>When recipient is the origin server and <a href="##field.if-match" class="smpl">If-Match</a> is present, evaluate the <a href="##field.if-match" class="smpl">If-Match</a> precondition:</p></div> <div><ul><li>if true, continue to step <a href="##precedence3">3</a></li><li>if false, respond <a href="##status.412" class="smpl">412 (Precondition Failed)</a> unless it can be determined that the state-changing request has already succeeded (see <a href="##field.if-match" id="rfc.xref.field.if-match.1" title="If-Match">Section 13.1.1</a>)</li></ul></div> </li><li id="precedence2"><div class="avoidbreakafter"><p>When recipient is the origin server, <a href="##field.if-match" class="smpl">If-Match</a> is not present, and <a href="##field.if-unmodified-since" class="smpl">If-Unmodified-Since</a> is present, evaluate the <a href="##field.if-unmodified-since" class="smpl">If-Unmodified-Since</a> precondition:</p></div> <div><ul><li>if true, continue to step <a href="##precedence3">3</a></li><li>if false, respond <a href="##status.412" class="smpl">412 (Precondition Failed)</a> unless it can be determined that the state-changing request has already succeeded (see <a href="##field.if-unmodified-since" id="rfc.xref.field.if-unmodified-since.1" title="If-Unmodified-Since">Section 13.1.4</a>)</li></ul></div> </li><li id="precedence3"><div class="avoidbreakafter"><p>When <a href="##field.if-none-match" class="smpl">If-None-Match</a> is present, evaluate the <a href="##field.if-none-match" class="smpl">If-None-Match</a> precondition:</p></div> <div><ul><li>if true, continue to step <a href="##precedence5">5</a></li><li>if false for GET/HEAD, respond <a href="##status.304" class="smpl">304 (Not Modified)</a></li><li>if false for other methods, respond <a href="##status.412" class="smpl">412 (Precondition Failed)</a></li></ul></div> </li><li id="precedence4"><div class="avoidbreakafter"><p>When the method is GET or HEAD, <a href="##field.if-none-match" class="smpl">If-None-Match</a> is not present, and <a href="##field.if-modified-since" class="smpl">If-Modified-Since</a> is present, evaluate the <a href="##field.if-modified-since" class="smpl">If-Modified-Since</a> precondition:</p></div> <div><ul><li>if true, continue to step <a href="##precedence5">5</a></li><li>if false, respond <a href="##status.304" class="smpl">304 (Not Modified)</a></li></ul></div> </li><li id="precedence5"><div class="avoidbreakafter"><p>When the method is GET and both <a href="##field.range" class="smpl">Range</a> and <a href="##field.if-range" class="smpl">If-Range</a> are present, evaluate the <a href="##field.if-range" class="smpl">If-Range</a> precondition:</p></div> <div><ul><li>if true and the <a href="##field.range" class="smpl">Range</a> is applicable to the <a href="##selected.representation" class="smpl">selected representation</a>, respond <a href="##status.206" class="smpl">206 (Partial Content)</a></li><li>otherwise, ignore the <a href="##field.range" class="smpl">Range</a> header field and respond <a href="##status.200" class="smpl">200 (OK)</a></li></ul></div> </li><li id="precedencelast"><div><p>Otherwise,</p></div> <div><ul><li>perform the requested method and respond according to its success or failure.</li></ul></div> </li></ol></div><div id="rfc.section.13.2.2.p.4"><p>Any extension to HTTP that defines additional conditional request header fields ought to define the order for evaluating such fields in relation to those defined in this document and other conditionals that might be found in practice.</p></div></section></section></section><section id="range.requests"><h2 id="rfc.section.14"><a href="##rfc.section.14">14.</a>&nbsp;<a href="##range.requests">Range Requests</a></h2><div id="rfc.section.14.p.1"><p>Clients often encounter interrupted data transfers as a result of canceled requests or dropped connections. When a client has stored a partial representation, it is desirable to request the remainder of that representation in a subsequent request rather than transfer the entire representation. Likewise, devices with limited local storage might benefit from being able to request only a subset of a larger representation, such as a single page of a very large document, or the dimensions of an embedded image.</p></div><div id="rfc.section.14.p.2"><p>Range requests are an <em class="bcp14">OPTIONAL</em> feature of HTTP, designed so that recipients not implementing this feature (or not supporting it for the target resource) can respond as if it is a normal GET request without impacting interoperability. Partial responses are indicated by a distinct status code to not be mistaken for full responses by caches that might not implement the feature.</p></div><section id="range.units"><h3 id="rfc.section.14.1"><a href="##rfc.section.14.1">14.1.</a>&nbsp;<a href="##range.units">Range Units</a></h3><div id="rfc.section.14.1.p.1"><p>Representation data can be partitioned into subranges when there are addressable structural units inherent to that data's content coding or media type. For example, octet (a.k.a. byte) boundaries are a structural unit common to all representation data, allowing partitions of the data to be identified as a range of bytes at some offset from the start or end of that data.</p></div><div id="rfc.section.14.1.p.2"><p>This general notion of a <dfn>range unit</dfn> is used in the <a href="##field.accept-ranges" class="smpl">Accept-Ranges</a> (<a href="##field.accept-ranges" id="rfc.xref.field.accept-ranges.1" title="Accept-Ranges">Section 14.3</a>) response header field to advertise support for range requests, the <a href="##field.range" class="smpl">Range</a> (<a href="##field.range" id="rfc.xref.field.range.2" title="Range">Section 14.2</a>) request header field to delineate the parts of a representation that are requested, and the <a href="##field.content-range" class="smpl">Content-Range</a> (<a href="##field.content-range" id="rfc.xref.field.content-range.2" title="Content-Range">Section 14.4</a>) header field to describe which part of a representation is being transferred.</p></div><div id="rfc.section.14.1.p.3"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.121"></span><span class="pln">  </span><a href="##range.units" class="smpl"><span class="typ">range-unit</span></a><span class="pln">       </span><span class="pun">=</span><span class="pln"> </span><a href="##rule.token.separators" class="smpl"><span class="typ">token</span></a>
</pre></div><div id="rfc.section.14.1.p.4"><p>All range unit names are case-insensitive and ought to be registered within the "HTTP Range Unit Registry", as defined in <a href="##range.unit.registry" title="Range Unit Registry">Section 16.5.1</a>.</p></div><div id="rfc.section.14.1.p.5"><p>Range units are intended to be extensible, as described in <a href="##range.unit.extensibility" title="Range Unit Extensibility">Section 16.5</a>.</p></div><section id="range.specifiers"><h4 id="rfc.section.14.1.1"><a href="##rfc.section.14.1.1">14.1.1.</a>&nbsp;<a href="##range.specifiers">Range Specifiers</a></h4><div id="rfc.section.14.1.1.p.1"><p>Ranges are expressed in terms of a range unit paired with a set of range specifiers. The range unit name determines what kinds of range-spec are applicable to its own specifiers. Hence, the following grammar is generic: each range unit is expected to specify requirements on when <a href="##rule.int-range" class="smpl">int-range</a>, <a href="##rule.suffix-range" class="smpl">suffix-range</a>, and <a href="##rule.other-range" class="smpl">other-range</a> are allowed.</p></div><div id="rfc.section.14.1.1.p.2"><p id="rule.ranges-specifier">A range request can specify a single range or a set of ranges within a single representation.</p></div><div id="rfc.section.14.1.1.p.3"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.122"></span><span id="rfc.iref.g.123"></span><span id="rfc.iref.g.124"></span><span class="pln">  </span><a href="##rule.ranges-specifier" class="smpl"><span class="typ">ranges-specifier</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><a href="##range.units" class="smpl"><span class="typ">range-unit</span></a><span class="pln"> </span><span class="str">"="</span><span class="pln"> </span><a href="##rule.ranges-specifier" class="smpl"><span class="typ">range-set</span></a><span class="pln">
  </span><a href="##rule.ranges-specifier" class="smpl"><span class="typ">range-set</span></a><span class="pln">        </span><span class="pun">=</span><span class="pln"> 1</span><span class="pun">#</span><a href="##rule.ranges-specifier" class="smpl"><span class="typ">range-spec</span></a><span class="pln">
  </span><a href="##rule.ranges-specifier" class="smpl"><span class="typ">range-spec</span></a><span class="pln">       </span><span class="pun">=</span><span class="pln"> </span><a href="##rule.int-range" class="smpl"><span class="typ">int-range</span></a><span class="pln">
                   </span><span class="pun">/</span><span class="pln"> </span><a href="##rule.suffix-range" class="smpl"><span class="typ">suffix-range</span></a><span class="pln">
                   </span><span class="pun">/</span><span class="pln"> </span><a href="##rule.other-range" class="smpl"><span class="typ">other-range</span></a>
</pre></div><div id="rfc.section.14.1.1.p.4"><p id="rule.int-range">An <a href="##rule.int-range" class="smpl">int-range</a> is a range expressed as two non-negative integers or as one non-negative integer through to the end of the representation data. The range unit specifies what the integers mean (e.g., they might indicate unit offsets from the beginning, inclusive numbered parts, etc.).</p></div><div id="rfc.section.14.1.1.p.5"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.125"></span><span id="rfc.iref.g.126"></span><span id="rfc.iref.g.127"></span><span class="pln">  </span><a href="##rule.int-range" class="smpl"><span class="typ">int-range</span></a><span class="pln">     </span><span class="pun">=</span><span class="pln"> </span><a href="##rule.int-range" class="smpl"><span class="typ">first-pos</span></a><span class="pln"> </span><span class="str">"-"</span><span class="pln"> </span><span class="pun">[</span><span class="pln"> </span><a href="##rule.int-range" class="smpl"><span class="typ">last-pos</span></a><span class="pln"> </span><span class="pun">]</span><span class="pln">
  </span><a href="##rule.int-range" class="smpl"><span class="typ">first-pos</span></a><span class="pln">     </span><span class="pun">=</span><span class="pln"> 1</span><span class="pun">*</span><a href="##core.rules" class="smpl"><span class="typ">DIGIT</span></a><span class="pln">
  </span><a href="##rule.int-range" class="smpl"><span class="typ">last-pos</span></a><span class="pln">      </span><span class="pun">=</span><span class="pln"> 1</span><span class="pun">*</span><a href="##core.rules" class="smpl"><span class="typ">DIGIT</span></a>
</pre></div><div id="rfc.section.14.1.1.p.6"><p>An <a href="##rule.int-range" class="smpl">int-range</a> is invalid if the <a href="##rule.int-range" class="smpl">last-pos</a> value is present and less than the <a href="##rule.int-range" class="smpl">first-pos</a>.</p></div><div id="rfc.section.14.1.1.p.7"><p id="rule.suffix-range">A <a href="##rule.suffix-range" class="smpl">suffix-range</a> is a range expressed as a suffix of the representation data with the provided non-negative integer maximum length (in range units). In other words, the last N units of the representation data.</p></div><div id="rfc.section.14.1.1.p.8"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.128"></span><span id="rfc.iref.g.129"></span><span class="pln">  </span><a href="##rule.suffix-range" class="smpl"><span class="typ">suffix-range</span></a><span class="pln">  </span><span class="pun">=</span><span class="pln"> </span><span class="str">"-"</span><span class="pln"> </span><a href="##rule.suffix-range" class="smpl"><span class="typ">suffix-length</span></a><span class="pln">
  </span><a href="##rule.suffix-range" class="smpl"><span class="typ">suffix-length</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> 1</span><span class="pun">*</span><a href="##core.rules" class="smpl"><span class="typ">DIGIT</span></a>
</pre></div><div id="rfc.section.14.1.1.p.9"><p id="rule.other-range">To provide for extensibility, the <a href="##rule.other-range" class="smpl">other-range</a> rule is a mostly unconstrained grammar that allows application-specific or future range units to define additional range specifiers.</p></div><div id="rfc.section.14.1.1.p.10"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.130"></span><span class="pln">  </span><a href="##rule.other-range" class="smpl"><span class="typ">other-range</span></a><span class="pln">   </span><span class="pun">=</span><span class="pln"> 1</span><span class="pun">*(</span><span class="pln"> </span><span class="lit">%x21-2B</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="lit">%x2D-7E</span><span class="pln"> </span><span class="pun">)</span><span class="pln">
                </span><span class="com">; 1*(VCHAR excluding comma)</span></pre></div><div id="rfc.section.14.1.1.p.11"><p>A <a href="##rule.ranges-specifier" class="smpl">ranges-specifier</a> is invalid if it contains any <a href="##rule.ranges-specifier" class="smpl">range-spec</a> that is invalid or undefined for the indicated <a href="##range.units" class="smpl">range-unit</a>.</p></div><div id="rfc.section.14.1.1.p.12"><p id="satisfiable">A valid <a href="##rule.ranges-specifier" class="smpl">ranges-specifier</a> is <dfn>satisfiable</dfn> if it contains at least one <a href="##rule.ranges-specifier" class="smpl">range-spec</a> that is satisfiable, as defined by the indicated <a href="##range.units" class="smpl">range-unit</a>. Otherwise, the <a href="##rule.ranges-specifier" class="smpl">ranges-specifier</a> is <dfn>unsatisfiable</dfn>.</p></div></section><section id="byte.ranges"><h4 id="rfc.section.14.1.2"><a href="##rfc.section.14.1.2">14.1.2.</a>&nbsp;<a href="##byte.ranges">Byte Ranges</a></h4><div id="rfc.section.14.1.2.p.1"><p>The "bytes" range unit is used to express subranges of a representation data's octet sequence. Each byte range is expressed as an integer range at some offset, relative to either the beginning (<a href="##rule.int-range" class="smpl">int-range</a>) or end (<a href="##rule.suffix-range" class="smpl">suffix-range</a>) of the representation data. Byte ranges do not use the <a href="##rule.other-range" class="smpl">other-range</a> specifier.</p></div><div id="rfc.section.14.1.2.p.2"><p>The <a href="##rule.int-range" class="smpl">first-pos</a> value in a bytes <a href="##rule.int-range" class="smpl">int-range</a> gives the offset of the first byte in a range. The <a href="##rule.int-range" class="smpl">last-pos</a> value gives the offset of the last byte in the range; that is, the byte positions specified are inclusive. Byte offsets start at zero.</p></div><div id="rfc.section.14.1.2.p.3"><p>If the representation data has a content coding applied, each byte range is calculated with respect to the encoded sequence of bytes, not the sequence of underlying bytes that would be obtained after decoding.</p></div><div id="rfc.section.14.1.2.p.4" class="avoidbreakafter"><p>Examples of bytes range specifiers:</p></div><div id="rfc.section.14.1.2.p.5"><ul><li><div class="avoidbreakafter"><p>The first 500 bytes (byte offsets 0-499, inclusive):</p></div> <div><pre class="text">bytes=0-499
</pre></div> </li><li><div class="avoidbreakafter"><p>The second 500 bytes (byte offsets 500-999, inclusive):</p></div> <div><pre class="text">bytes=500-999
</pre></div> </li></ul></div><div id="rfc.section.14.1.2.p.6"><p>A client can limit the number of bytes requested without knowing the size of the <a href="##selected.representation" class="smpl">selected representation</a>. If the <a href="##rule.int-range" class="smpl">last-pos</a> value is absent, or if the value is greater than or equal to the current length of the representation data, the byte range is interpreted as the remainder of the representation (i.e., the server replaces the value of <a href="##rule.int-range" class="smpl">last-pos</a> with a value that is one less than the current length of the selected representation).</p></div><div id="rfc.section.14.1.2.p.7"><p>A client can refer to the last N bytes (N &gt; 0) of the selected representation using a <a href="##rule.suffix-range" class="smpl">suffix-range</a>. If the selected representation is shorter than the specified <a href="##rule.suffix-range" class="smpl">suffix-length</a>, the entire representation is used.</p></div><div id="rfc.section.14.1.2.p.8" class="avoidbreakafter"><p>Additional examples, assuming a representation of length 10000:</p></div><div id="rfc.section.14.1.2.p.9"><ul><li><div class="avoidbreakafter"><p>The final 500 bytes (byte offsets 9500-9999, inclusive):</p></div> <div><pre class="text">bytes=-500
</pre></div> <div class="avoidbreakafter"><p>Or:</p></div> <div><pre class="text">bytes=9500-
</pre></div> </li><li><div class="avoidbreakafter"><p>The first and last bytes only (bytes 0 and 9999):</p></div> <div><pre class="text">bytes=0-0,-1
</pre></div> </li><li><div class="avoidbreakafter"><p>The first, middle, and last 1000 bytes:</p></div> <div><pre class="text">bytes= 0-999, 4500-5499, -1000
</pre></div> </li><li><div class="avoidbreakafter"><p>Other valid (but not canonical) specifications of the second 500 bytes (byte offsets 500-999, inclusive):</p></div> <div><pre class="text">bytes=500-600,601-999
bytes=500-700,601-999
</pre></div> </li></ul></div><div id="rfc.section.14.1.2.p.10" class="avoidbreakafter"><p>For a <a href="##GET" class="smpl" id="rfc.extref.g.8">GET</a> request, a valid bytes <a href="##rule.ranges-specifier" class="smpl">range-spec</a> is <a href="##satisfiable" class="smpl">satisfiable</a> if it is either:</p></div><div id="rfc.section.14.1.2.p.11"><ul><li>an <a href="##rule.int-range" class="smpl">int-range</a> with a <a href="##rule.int-range" class="smpl">first-pos</a> that is less than the current length of the selected representation or</li><li>a <a href="##rule.suffix-range" class="smpl">suffix-range</a> with a non-zero <a href="##rule.suffix-range" class="smpl">suffix-length</a>.</li></ul></div><div id="rfc.section.14.1.2.p.12"><p>When a selected representation has zero length, the only <a href="##satisfiable" class="smpl">satisfiable</a> form of <a href="##rule.ranges-specifier" class="smpl">range-spec</a> in a <a href="##GET" class="smpl" id="rfc.extref.g.9">GET</a> request is a <a href="##rule.suffix-range" class="smpl">suffix-range</a> with a non-zero <a href="##rule.suffix-range" class="smpl">suffix-length</a>.</p></div><div id="rfc.section.14.1.2.p.13"><p>In the byte-range syntax, <a href="##rule.int-range" class="smpl">first-pos</a>, <a href="##rule.int-range" class="smpl">last-pos</a>, and <a href="##rule.suffix-range" class="smpl">suffix-length</a> are expressed as decimal number of octets. Since there is no predefined limit to the length of content, recipients <em class="bcp14">MUST</em> anticipate potentially large decimal numerals and prevent parsing errors due to integer conversion overflows.</p></div></section></section><section id="field.range"><h3 id="rfc.section.14.2"><a href="##rfc.section.14.2">14.2.</a>&nbsp;<a href="##field.range">Range</a></h3><div id="rfc.section.14.2.p.1"><p>The "Range" header field on a GET request modifies the method semantics to request transfer of only one or more subranges of the selected representation data (<a href="##representation.data" title="Representation Data">Section 8.1</a>), rather than the entire <a href="##selected.representation" class="smpl">selected representation</a>.</p></div><div id="rfc.section.14.2.p.2"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.131"></span><span class="pln">  </span><a href="##field.range" class="smpl"><span class="typ">Range</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><a href="##rule.ranges-specifier" class="smpl"><span class="typ">ranges-specifier</span></a>
</pre></div><div id="rfc.section.14.2.p.3"><p>A server <em class="bcp14">MAY</em> ignore the Range header field. However, origin servers and intermediate caches ought to support byte ranges when possible, since they support efficient recovery from partially failed transfers and partial retrieval of large representations.</p></div><div id="rfc.section.14.2.p.4"><p>A server <em class="bcp14">MUST</em> ignore a Range header field received with a request method that is unrecognized or for which range handling is not defined. For this specification, <a href="##GET" class="smpl" id="rfc.extref.g.10">GET</a> is the only method for which range handling is defined.</p></div><div id="rfc.section.14.2.p.5"><p>An origin server <em class="bcp14">MUST</em> ignore a Range header field that contains a range unit it does not understand. A proxy <em class="bcp14">MAY</em> discard a Range header field that contains a range unit it does not understand.</p></div><div id="rfc.section.14.2.p.6"><p>A server that supports range requests <em class="bcp14">MAY</em> ignore or reject a <a href="##field.range" class="smpl">Range</a> header field that contains an invalid <a href="##rule.ranges-specifier" class="smpl">ranges-specifier</a> (<a href="##range.specifiers" title="Range Specifiers">Section 14.1.1</a>), a <a href="##rule.ranges-specifier" class="smpl">ranges-specifier</a> with more than two overlapping ranges, or a set of many small ranges that are not listed in ascending order, since these are indications of either a broken client or a deliberate denial-of-service attack (<a href="##overlapping.ranges" title="Denial-of-Service Attacks Using Range">Section 17.15</a>). A client <em class="bcp14">SHOULD NOT</em> request multiple ranges that are inherently less efficient to process and transfer than a single range that encompasses the same data.</p></div><div id="rfc.section.14.2.p.7"><p>A server that supports range requests <em class="bcp14">MAY</em> ignore a <a href="##field.range" class="smpl">Range</a> header field when the selected representation has no content (i.e., the selected representation's data is of zero length).</p></div><div id="rfc.section.14.2.p.8"><p>A client that is requesting multiple ranges <em class="bcp14">SHOULD</em> list those ranges in ascending order (the order in which they would typically be received in a complete representation) unless there is a specific need to request a later part earlier. For example, a user agent processing a large representation with an internal catalog of parts might need to request later parts first, particularly if the representation consists of pages stored in reverse order and the user agent wishes to transfer one page at a time.</p></div><div id="rfc.section.14.2.p.9"><p>The Range header field is evaluated after evaluating the precondition header fields defined in <a href="##preconditions" title="Preconditions">Section 13.1</a>, and only if the result in absence of the Range header field would be a <a href="##status.200" class="smpl">200 (OK)</a> response. In other words, Range is ignored when a conditional GET would result in a <a href="##status.304" class="smpl">304 (Not Modified)</a> response.</p></div><div id="rfc.section.14.2.p.10"><p>The If-Range header field (<a href="##field.if-range" id="rfc.xref.field.if-range.3" title="If-Range">Section 13.1.5</a>) can be used as a precondition to applying the Range header field.</p></div><div id="rfc.section.14.2.p.11"><p>If all of the preconditions are true, the server supports the Range header field for the target resource, the received Range field-value contains a valid <a href="##rule.ranges-specifier" class="smpl">ranges-specifier</a> with a <a href="##range.units" class="smpl">range-unit</a> supported for that target resource, and that <a href="##rule.ranges-specifier" class="smpl">ranges-specifier</a> is <a href="##satisfiable" class="smpl">satisfiable</a> with respect to the selected representation, the server <em class="bcp14">SHOULD</em> send a <a href="##status.206" class="smpl">206 (Partial Content)</a> response with content containing one or more partial representations that correspond to the satisfiable <a href="##rule.ranges-specifier" class="smpl">range-spec</a>(s) requested.</p></div><div id="rfc.section.14.2.p.12"><p>The above does not imply that a server will send all requested ranges. In some cases, it may only be possible (or efficient) to send a portion of the requested ranges first, while expecting the client to re-request the remaining portions later if they are still desired (see <a href="##status.206" id="rfc.xref.status.206.3" title="206 Partial Content">Section 15.3.7</a>).</p></div><div id="rfc.section.14.2.p.13"><p>If all of the preconditions are true, the server supports the Range header field for the target resource, the received Range field-value contains a valid <a href="##rule.ranges-specifier" class="smpl">ranges-specifier</a>, and either the <a href="##range.units" class="smpl">range-unit</a> is not supported for that target resource or the <a href="##rule.ranges-specifier" class="smpl">ranges-specifier</a> is unsatisfiable with respect to the selected representation, the server <em class="bcp14">SHOULD</em> send a <a href="##status.416" class="smpl">416 (Range Not Satisfiable)</a> response.</p></div></section><section id="field.accept-ranges"><h3 id="rfc.section.14.3"><a href="##rfc.section.14.3">14.3.</a>&nbsp;<a href="##field.accept-ranges">Accept-Ranges</a></h3><div id="rfc.section.14.3.p.1"><p>The "Accept-Ranges" field in a response indicates whether an upstream server supports range requests for the target resource.</p></div><div id="rfc.section.14.3.p.2"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.132"></span><span id="rfc.iref.g.133"></span><span class="pln">  </span><a href="##field.accept-ranges" class="smpl"><span class="typ">Accept-Ranges</span></a><span class="pln">     </span><span class="pun">=</span><span class="pln"> </span><a href="##field.accept-ranges" class="smpl"><span class="typ">acceptable-ranges</span></a><span class="pln">
  </span><a href="##field.accept-ranges" class="smpl"><span class="typ">acceptable-ranges</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> 1</span><span class="pun">#</span><a href="##range.units" class="smpl"><span class="typ">range-unit</span></a>
</pre></div><div id="rfc.section.14.3.p.3"><p>For example, a server that supports byte-range requests (<a href="##byte.ranges" title="Byte Ranges">Section 14.1.2</a>) can send the field</p></div><div id="rfc.section.14.3.p.4"><pre class="text">Accept-Ranges: bytes
</pre></div><div id="rfc.section.14.3.p.5"><p>to indicate that it supports byte range requests for that target resource, thereby encouraging its use by the client for future partial requests on the same request path. Range units are defined in <a href="##range.units" title="Range Units">Section 14.1</a>.</p></div><div id="rfc.section.14.3.p.6"><p>A client <em class="bcp14">MAY</em> generate range requests regardless of having received an Accept-Ranges field. The information only provides advice for the sake of improving performance and reducing unnecessary network transfers.</p></div><div id="rfc.section.14.3.p.7"><p>Conversely, a client <em class="bcp14">MUST NOT</em> assume that receiving an Accept-Ranges field means that future range requests will return partial responses. The content might change, the server might only support range requests at certain times or under certain conditions, or a different intermediary might process the next request.</p></div><div id="rfc.section.14.3.p.8"><p>A server that does not support any kind of range request for the target resource <em class="bcp14">MAY</em> send</p></div><div id="rfc.section.14.3.p.9"><pre class="text">Accept-Ranges: none
</pre></div><div id="rfc.section.14.3.p.10"><p>to advise the client not to attempt a range request on the same request path. The range unit "none" is reserved for this purpose.</p></div><div id="rfc.section.14.3.p.11"><p>The Accept-Ranges field <em class="bcp14">MAY</em> be sent in a trailer section, but is preferred to be sent as a header field because the information is particularly useful for restarting large information transfers that have failed in mid-content (before the trailer section is received).</p></div></section><section id="field.content-range"><h3 id="rfc.section.14.4"><a href="##rfc.section.14.4">14.4.</a>&nbsp;<a href="##field.content-range">Content-Range</a></h3><div id="rfc.section.14.4.p.1"><p>The "Content-Range" header field is sent in a single part <a href="##status.206" class="smpl">206 (Partial Content)</a> response to indicate the partial range of the <a href="##selected.representation" class="smpl">selected representation</a> enclosed as the message content, sent in each part of a multipart 206 response to indicate the range enclosed within each body part (<a href="##multipart.byteranges" title="Media Type multipart/byteranges">Section 14.6</a>), and sent in <a href="##status.416" class="smpl">416 (Range Not Satisfiable)</a> responses to provide information about the selected representation.</p></div><div id="rfc.section.14.4.p.2"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><span id="rfc.iref.g.134"></span><span id="rfc.iref.g.135"></span><span id="rfc.iref.g.136"></span><span id="rfc.iref.g.137"></span><span id="rfc.iref.g.138"></span><span id="rfc.iref.g.139"></span><span id="rfc.iref.g.140"></span><span class="pln">  </span><a href="##field.content-range" class="smpl"><span class="typ">Content-Range</span></a><span class="pln">       </span><span class="pun">=</span><span class="pln"> </span><a href="##range.units" class="smpl"><span class="typ">range-unit</span></a><span class="pln"> </span><a href="##core.rules" class="smpl"><span class="typ">SP</span></a><span class="pln">
                        </span><span class="pun">(</span><span class="pln"> </span><a href="##field.content-range" class="smpl"><span class="typ">range-resp</span></a><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><a href="##field.content-range" class="smpl"><span class="typ">unsatisfied-range</span></a><span class="pln"> </span><span class="pun">)</span><span class="pln">

  </span><a href="##field.content-range" class="smpl"><span class="typ">range-resp</span></a><span class="pln">          </span><span class="pun">=</span><span class="pln"> </span><a href="##field.content-range" class="smpl"><span class="typ">incl-range</span></a><span class="pln"> </span><span class="str">"/"</span><span class="pln"> </span><span class="pun">(</span><span class="pln"> </span><a href="##field.content-range" class="smpl"><span class="typ">complete-length</span></a><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="str">"*"</span><span class="pln"> </span><span class="pun">)</span><span class="pln">
  </span><a href="##field.content-range" class="smpl"><span class="typ">incl-range</span></a><span class="pln">          </span><span class="pun">=</span><span class="pln"> </span><a href="##rule.int-range" class="smpl"><span class="typ">first-pos</span></a><span class="pln"> </span><span class="str">"-"</span><span class="pln"> </span><a href="##rule.int-range" class="smpl"><span class="typ">last-pos</span></a><span class="pln">
  </span><a href="##field.content-range" class="smpl"><span class="typ">unsatisfied-range</span></a><span class="pln">   </span><span class="pun">=</span><span class="pln"> </span><span class="str">"*/"</span><span class="pln"> </span><a href="##field.content-range" class="smpl"><span class="typ">complete-length</span></a><span class="pln">

  </span><a href="##field.content-range" class="smpl"><span class="typ">complete-length</span></a><span class="pln">     </span><span class="pun">=</span><span class="pln"> 1</span><span class="pun">*</span><a href="##core.rules" class="smpl"><span class="typ">DIGIT</span></a>
</pre></div><div id="rfc.section.14.4.p.3"><p>If a <a href="##status.206" class="smpl">206 (Partial Content)</a> response contains a <a href="##field.content-range" class="smpl">Content-Range</a> header field with a <a href="##range.units" class="smpl">range unit</a> (<a href="##range.units" title="Range Units">Section 14.1</a>) that the recipient does not understand, the recipient <em class="bcp14">MUST NOT</em> attempt to recombine it with a stored representation. A proxy that receives such a message <em class="bcp14">SHOULD</em> forward it downstream.</p></div><div id="rfc.section.14.4.p.4"><p>Content-Range might also be sent as a request modifier to request a partial PUT, as described in <a href="##partial.PUT" title="Partial PUT">Section 14.5</a>, based on private agreements between client and origin server. A server <em class="bcp14">MUST</em> ignore a Content-Range header field received in a request with a method for which Content-Range support is not defined.</p></div><div id="rfc.section.14.4.p.5"><p>For byte ranges, a sender <em class="bcp14">SHOULD</em> indicate the complete length of the representation from which the range has been extracted, unless the complete length is unknown or difficult to determine. An asterisk character ("*") in place of the complete-length indicates that the representation length was unknown when the header field was generated.</p></div><div id="rfc.section.14.4.p.6" class="avoidbreakafter"><p>The following example illustrates when the complete length of the selected representation is known by the sender to be 1234 bytes:</p></div><div id="rfc.section.14.4.p.7"><pre class="text">Content-Range: bytes 42-1233/1234
</pre></div><div id="rfc.section.14.4.p.8" class="avoidbreakafter"><p>and this second example illustrates when the complete length is unknown:</p></div><div id="rfc.section.14.4.p.9"><pre class="text">Content-Range: bytes 42-1233/*
</pre></div><div id="rfc.section.14.4.p.10"><p>A Content-Range field value is invalid if it contains a <a href="##field.content-range" class="smpl">range-resp</a> that has a <a href="##rule.int-range" class="smpl">last-pos</a> value less than its <a href="##rule.int-range" class="smpl">first-pos</a> value, or a <a href="##field.content-range" class="smpl">complete-length</a> value less than or equal to its <a href="##rule.int-range" class="smpl">last-pos</a> value. The recipient of an invalid <a href="##field.content-range" class="smpl">Content-Range</a> <em class="bcp14">MUST NOT</em> attempt to recombine the received content with a stored representation.</p></div><div id="rfc.section.14.4.p.11" class="avoidbreakafter"><p>A server generating a <a href="##status.416" class="smpl">416 (Range Not Satisfiable)</a> response to a byte-range request <em class="bcp14">SHOULD</em> send a Content-Range header field with an <a href="##field.content-range" class="smpl">unsatisfied-range</a> value, as in the following example:</p></div><div id="rfc.section.14.4.p.12"><pre class="text">Content-Range: bytes */1234
</pre></div><div id="rfc.section.14.4.p.13"><p>The complete-length in a 416 response indicates the current length of the selected representation.</p></div><div id="rfc.section.14.4.p.14"><p>The Content-Range header field has no meaning for status codes that do not explicitly describe its semantic. For this specification, only the <a href="##status.206" class="smpl">206 (Partial Content)</a> and <a href="##status.416" class="smpl">416 (Range Not Satisfiable)</a> status codes describe a meaning for Content-Range.</p></div><div id="rfc.section.14.4.p.15" class="avoidbreakafter"><p>The following are examples of Content-Range values in which the selected representation contains a total of 1234 bytes:</p></div><div id="rfc.section.14.4.p.16"><ul><li><div class="avoidbreakafter"><p>The first 500 bytes:</p></div> <div><pre class="text">Content-Range: bytes 0-499/1234
</pre></div> </li><li><div class="avoidbreakafter"><p>The second 500 bytes:</p></div> <div><pre class="text">Content-Range: bytes 500-999/1234
</pre></div> </li><li><div class="avoidbreakafter"><p>All except for the first 500 bytes:</p></div> <div><pre class="text">Content-Range: bytes 500-1233/1234
</pre></div> </li><li><div class="avoidbreakafter"><p>The last 500 bytes:</p></div> <div><pre class="text">Content-Range: bytes 734-1233/1234
</pre></div> </li></ul></div></section><section id="partial.PUT"><h3 id="rfc.section.14.5"><a href="##rfc.section.14.5">14.5.</a>&nbsp;<a href="##partial.PUT">Partial PUT</a></h3><div id="rfc.section.14.5.p.1"><p>Some origin servers support <a href="##PUT" class="smpl" id="rfc.extref.p.51">PUT</a> of a partial representation when the user agent sends a <a href="##field.content-range" class="smpl">Content-Range</a> header field (<a href="##field.content-range" id="rfc.xref.field.content-range.3" title="Content-Range">Section 14.4</a>) in the request, though such support is inconsistent and depends on private agreements with user agents. In general, it requests that the state of the <a href="##target.resource" class="smpl">target resource</a> be partly replaced with the enclosed content at an offset and length indicated by the Content-Range value, where the offset is relative to the current selected representation.</p></div><div id="rfc.section.14.5.p.2"><p>An origin server <em class="bcp14">SHOULD</em> respond with a <a href="##status.400" class="smpl">400 (Bad Request)</a> status code if it receives <a href="##field.content-range" class="smpl">Content-Range</a> on a PUT for a target resource that does not support partial PUT requests.</p></div><div id="rfc.section.14.5.p.3"><p>Partial PUT is not backwards compatible with the original definition of PUT. It may result in the content being written as a complete replacement for the current representation.</p></div><div id="rfc.section.14.5.p.4"><p>Partial resource updates are also possible by targeting a separately identified resource with state that overlaps or extends a portion of the larger resource, or by using a different method that has been specifically defined for partial updates (for example, the PATCH method defined in <a href="##RFC5789" id="rfc.xref.RFC5789.2"><cite title="PATCH Method for HTTP">[RFC5789]</cite></a>).</p></div></section><section id="multipart.byteranges"><h3 id="rfc.section.14.6"><a href="##rfc.section.14.6">14.6.</a>&nbsp;<a href="##multipart.byteranges">Media Type multipart/byteranges</a></h3><div id="rfc.section.14.6.p.1"><p>When a <a href="##status.206" class="smpl">206 (Partial Content)</a> response message includes the content of multiple ranges, they are transmitted as body parts in a multipart message body (<a href="##RFC2046" id="rfc.xref.RFC2046.5"><cite title="Multipurpose Internet Mail Extensions (MIME) Part Two: Media Types">[RFC2046]</cite></a>, <a href="https://www.rfc-editor.org/rfc/rfc2046.html#section-5.1">Section 5.1</a>) with the media type of "multipart/byteranges".</p></div><div id="rfc.section.14.6.p.2"><p>The "multipart/byteranges" media type includes one or more body parts, each with its own <a href="##field.content-type" class="smpl">Content-Type</a> and <a href="##field.content-range" class="smpl">Content-Range</a> fields. The required boundary parameter specifies the boundary string used to separate each body part.</p></div><div id="rfc.section.14.6.p.3" class="avoidbreakafter"><p>Implementation Notes:</p></div><div id="rfc.section.14.6.p.4"><ol><li>Additional CRLFs might precede the first boundary string in the body.</li><li>Although <a href="##RFC2046" id="rfc.xref.RFC2046.6"><cite title="Multipurpose Internet Mail Extensions (MIME) Part Two: Media Types">[RFC2046]</cite></a> permits the boundary string to be quoted, some existing implementations handle a quoted boundary string incorrectly.</li><li>A number of clients and servers were coded to an early draft of the byteranges specification that used a media type of "multipart/x-byteranges",<span id="rfc.iref.m.7"></span><span id="rfc.iref.m.8"></span> which is almost (but not quite) compatible with this type.</li></ol></div><div id="rfc.section.14.6.p.5" class="avoidbreakafter"><p>Despite the name, the "multipart/byteranges" media type is not limited to byte ranges. The following example uses an "exampleunit" range unit:</p></div><div id="rfc.section.14.6.p.6"><pre class="text">HTTP/1.1 206 Partial Content
Date: Tue, 14 Nov 1995 06:25:24 GMT
Last-Modified: Tue, 14 July 04:58:08 GMT
Content-Length: 2331785
Content-Type: multipart/byteranges; boundary=THIS_STRING_SEPARATES

--THIS_STRING_SEPARATES
Content-Type: video/example
Content-Range: exampleunit 1.2-4.3/25

...the first range...
--THIS_STRING_SEPARATES
Content-Type: video/example
Content-Range: exampleunit 11.2-14.3/25

...the second range
--THIS_STRING_SEPARATES--
</pre></div><div id="rfc.section.14.6.p.7"><p>The following information serves as the registration form for the "multipart/byteranges" media type.</p></div><div id="rfc.section.14.6.p.8"><dl><dt>Type name:</dt><dd>multipart</dd><dt>Subtype name:</dt><dd>byteranges</dd><dt>Required parameters:</dt><dd>boundary</dd><dt>Optional parameters:</dt><dd>N/A</dd><dt>Encoding considerations:</dt><dd>only "7bit", "8bit", or "binary" are permitted</dd><dt>Security considerations:</dt><dd>see <a href="##security.considerations" title="Security Considerations">Section 17</a></dd><dt>Interoperability considerations:</dt><dd>N/A</dd><dt>Published specification:</dt><dd>RFC 9110 (see <a href="##multipart.byteranges" title="Media Type multipart/byteranges">Section 14.6</a>)</dd><dt>Applications that use this media type:</dt><dd>HTTP components supporting multiple ranges in a single request</dd><dt>Fragment identifier considerations:</dt><dd>N/A</dd><dt>Additional information:</dt><dd><div><dl><dt>Deprecated alias names for this type:</dt><dd>N/A</dd><dt>Magic number(s):</dt><dd>N/A</dd><dt>File extension(s):</dt><dd>N/A</dd><dt>Macintosh file type code(s):</dt><dd>N/A</dd></dl></div></dd><dt>Person and email address to contact for further information:</dt><dd>See Authors' Addresses section.</dd><dt>Intended usage:</dt><dd>COMMON</dd><dt>Restrictions on usage:</dt><dd>N/A</dd><dt>Author:</dt><dd>See Authors' Addresses section.</dd><dt>Change controller:</dt><dd>IESG</dd></dl></div></section></section><section id="status.codes"><h2 id="rfc.section.15"><a href="##rfc.section.15">15.</a>&nbsp;<a href="##status.codes">Status Codes</a></h2><div id="rfc.section.15.p.1"><p>The status code of a response is a three-digit integer code that describes the result of the request and the semantics of the response, including whether the request was successful and what content is enclosed (if any). All valid status codes are within the range of 100 to 599, inclusive.</p></div><div id="rfc.section.15.p.2" class="avoidbreakafter"><p>The first digit of the status code defines the class of response. The last two digits do not have any categorization role. There are five values for the first digit:</p></div><div id="rfc.section.15.p.3"><ul><li><a href="##status.1xx" class="smpl">1xx (Informational)</a>: The request was received, continuing process</li><li><a href="##status.2xx" class="smpl">2xx (Successful)</a>: The request was successfully received, understood, and accepted</li><li><a href="##status.3xx" class="smpl">3xx (Redirection)</a>: Further action needs to be taken in order to complete the request</li><li><a href="##status.4xx" class="smpl">4xx (Client Error)</a>: The request contains bad syntax or cannot be fulfilled</li><li><a href="##status.5xx" class="smpl">5xx (Server Error)</a>: The server failed to fulfill an apparently valid request</li></ul></div><div id="rfc.section.15.p.4"><p>HTTP status codes are extensible. A client is not required to understand the meaning of all registered status codes, though such understanding is obviously desirable. However, a client <em class="bcp14">MUST</em> understand the class of any status code, as indicated by the first digit, and treat an unrecognized status code as being equivalent to the x00 status code of that class.</p></div><div id="rfc.section.15.p.5"><p>For example, if a client receives an unrecognized status code of 471, it can see from the first digit that there was something wrong with its request and treat the response as if it had received a <a href="##status.400" class="smpl">400 (Bad Request)</a> status code. The response message will usually contain a representation that explains the status.</p></div><div id="rfc.section.15.p.6"><p>Values outside the range 100..599 are invalid. Implementations often use three-digit integer values outside of that range (i.e., 600..999) for internal communication of non-HTTP status (e.g., library errors). A client that receives a response with an invalid status code <em class="bcp14">SHOULD</em> process the response as if it had a <a href="##status.5xx" class="smpl">5xx (Server Error)</a> status code.</p></div><div id="rfc.section.15.p.7"><p id="final.interim"><span id="rfc.iref.s.3"></span><span id="rfc.iref.s.4"></span><span id="rfc.iref.s.5"></span>A single request can have multiple associated responses: zero or more <dfn>interim</dfn> (non-final) responses with status codes in the "informational" (<a href="##status.1xx" class="smpl">1xx</a>) range, followed by exactly one <dfn>final</dfn> response with a status code in one of the other ranges.</p></div><section id="overview.of.status.codes"><h3 id="rfc.section.15.1"><a href="##rfc.section.15.1">15.1.</a>&nbsp;<a href="##overview.of.status.codes">Overview of Status Codes</a></h3><div id="rfc.section.15.1.p.1"><p>The status codes listed below are defined in this specification. The reason phrases listed here are only recommendations — they can be replaced by local equivalents or left out altogether without affecting the protocol.</p></div><div id="rfc.section.15.1.p.2"><p>Responses with status codes that are defined as heuristically cacheable (e.g., 200, 203, 204, 206, 300, 301, 308, 404, 405, 410, 414, and 501 in this specification) can be reused by a cache with heuristic expiration unless otherwise indicated by the method definition or explicit cache controls <a href="##CACHING" id="rfc.xref.CACHING.26"><cite title="HTTP Caching">[CACHING]</cite></a>; all other status codes are not heuristically cacheable.</p></div><div id="rfc.section.15.1.p.3"><p>Additional status codes, outside the scope of this specification, have been specified for use in HTTP. All such status codes ought to be registered within the "Hypertext Transfer Protocol (HTTP) Status Code Registry", as described in <a href="##status.code.extensibility" title="Status Code Extensibility">Section 16.2</a>.</p></div></section><section id="status.1xx"><h3 id="rfc.section.15.2"><a href="##rfc.section.15.2">15.2.</a>&nbsp;<a href="##status.1xx">Informational 1xx</a></h3><div id="rfc.section.15.2.p.1"><p>The 1xx (Informational) class of status code indicates an interim response for communicating connection status or request progress prior to completing the requested action and sending a final response. Since HTTP/1.0 did not define any 1xx status codes, a server <em class="bcp14">MUST NOT</em> send a 1xx response to an HTTP/1.0 client.</p></div><div id="rfc.section.15.2.p.2"><p>A 1xx response is terminated by the end of the header section; it cannot contain content or trailers.</p></div><div id="rfc.section.15.2.p.3"><p>A client <em class="bcp14">MUST</em> be able to parse one or more 1xx responses received prior to a final response, even if the client does not expect one. A user agent <em class="bcp14">MAY</em> ignore unexpected 1xx responses.</p></div><div id="rfc.section.15.2.p.4"><p>A proxy <em class="bcp14">MUST</em> forward 1xx responses unless the proxy itself requested the generation of the 1xx response. For example, if a proxy adds an "Expect: 100-continue" header field when it forwards a request, then it need not forward the corresponding <a href="##status.100" class="smpl">100 (Continue)</a> response(s).</p></div><section id="status.100"><h4 id="rfc.section.15.2.1"><a href="##rfc.section.15.2.1">15.2.1.</a>&nbsp;<a href="##status.100">100 Continue</a></h4><div id="rfc.section.15.2.1.p.1"><p>The 100 (Continue) status code indicates that the initial part of a request has been received and has not yet been rejected by the server. The server intends to send a final response after the request has been fully received and acted upon.</p></div><div id="rfc.section.15.2.1.p.2"><p>When the request contains an <a href="##field.expect" class="smpl">Expect</a> header field that includes a <a href="##field.expect" class="smpl">100-continue</a> expectation, the 100 response indicates that the server wishes to receive the request content, as described in <a href="##field.expect" id="rfc.xref.field.expect.2" title="Expect">Section 10.1.1</a>. The client ought to continue sending the request and discard the 100 response.</p></div><div id="rfc.section.15.2.1.p.3"><p>If the request did not contain an <a href="##field.expect" class="smpl">Expect</a> header field containing the <a href="##field.expect" class="smpl">100-continue</a> expectation, the client can simply discard this interim response.</p></div></section><section id="status.101"><h4 id="rfc.section.15.2.2"><a href="##rfc.section.15.2.2">15.2.2.</a>&nbsp;<a href="##status.101">101 Switching Protocols</a></h4><div id="rfc.section.15.2.2.p.1"><p>The 101 (Switching Protocols) status code indicates that the server understands and is willing to comply with the client's request, via the <a href="##field.upgrade" class="smpl">Upgrade</a> header field (<a href="##field.upgrade" id="rfc.xref.field.upgrade.4" title="Upgrade">Section 7.8</a>), for a change in the application protocol being used on this connection. The server <em class="bcp14">MUST</em> generate an Upgrade header field in the response that indicates which protocol(s) will be in effect after this response.</p></div><div id="rfc.section.15.2.2.p.2"><p>It is assumed that the server will only agree to switch protocols when it is advantageous to do so. For example, switching to a newer version of HTTP might be advantageous over older versions, and switching to a real-time, synchronous protocol might be advantageous when delivering resources that use such features.</p></div></section></section><section id="status.2xx"><h3 id="rfc.section.15.3"><a href="##rfc.section.15.3">15.3.</a>&nbsp;<a href="##status.2xx">Successful 2xx</a></h3><div id="rfc.section.15.3.p.1"><p>The 2xx (Successful) class of status code indicates that the client's request was successfully received, understood, and accepted.</p></div><section id="status.200"><h4 id="rfc.section.15.3.1"><a href="##rfc.section.15.3.1">15.3.1.</a>&nbsp;<a href="##status.200">200 OK</a></h4><div id="rfc.section.15.3.1.p.1" class="avoidbreakafter"><p>The 200 (OK) status code indicates that the request has succeeded. The content sent in a 200 response depends on the request method. For the methods defined by this specification, the intended meaning of the content can be summarized as:</p></div><div class="table table-condensed table-striped"><table class="v3 tleft"><caption>Table 6</caption><thead><tr><th class="text-left">Request Method</th><th class="text-left">Response content is a representation of:</th></tr></thead><tbody><tr><td class="text-left">GET</td><td class="text-left">the <a href="##target.resource" class="smpl">target resource</a></td></tr><tr><td class="text-left">HEAD</td><td class="text-left">the <a href="##target.resource" class="smpl">target resource</a>, like GET, but without transferring the representation data</td></tr><tr><td class="text-left">POST</td><td class="text-left">the status of, or results obtained from, the action</td></tr><tr><td class="text-left">PUT, DELETE</td><td class="text-left">the status of the action</td></tr><tr><td class="text-left">OPTIONS</td><td class="text-left">communication options for the target resource</td></tr><tr><td class="text-left">TRACE</td><td class="text-left">the request message as received by the server returning the trace</td></tr></tbody></table></div><div id="rfc.section.15.3.1.p.2"><p>Aside from responses to CONNECT, a 200 response is expected to contain message content unless the message framing explicitly indicates that the content has zero length. If some aspect of the request indicates a preference for no content upon success, the origin server ought to send a <a href="##status.204" class="smpl">204 (No Content)</a> response instead. For CONNECT, there is no content because the successful result is a tunnel, which begins immediately after the 200 response header section.</p></div><div id="rfc.section.15.3.1.p.3"><p>A 200 response is heuristically cacheable; i.e., unless otherwise indicated by the method definition or explicit cache controls (see <a href="https://httpwg.org/specs/rfc9111.html#heuristic.freshness" title="Calculating Heuristic Freshness">Section 4.2.2</a> of <a href="##CACHING" id="rfc.xref.CACHING.27"><cite title="HTTP Caching">[CACHING]</cite></a>).</p></div><div id="rfc.section.15.3.1.p.4"><p>In 200 responses to GET or HEAD, an origin server <em class="bcp14">SHOULD</em> send any available validator fields (<a href="##response.validator" title="Validator Fields">Section 8.8</a>) for the <a href="##selected.representation" class="smpl">selected representation</a>, with both a strong entity tag and a <a href="##field.last-modified" class="smpl">Last-Modified</a> date being preferred.</p></div><div id="rfc.section.15.3.1.p.5"><p>In 200 responses to state-changing methods, any validator fields (<a href="##response.validator" title="Validator Fields">Section 8.8</a>) sent in the response convey the current validators for the new representation formed as a result of successfully applying the request semantics. Note that the PUT method (<a href="##PUT" id="rfc.xref.PUT.4" title="PUT">Section 9.3.4</a>) has additional requirements that might preclude sending such validators.</p></div></section><section id="status.201"><h4 id="rfc.section.15.3.2"><a href="##rfc.section.15.3.2">15.3.2.</a>&nbsp;<a href="##status.201">201 Created</a></h4><div id="rfc.section.15.3.2.p.1"><p>The 201 (Created) status code indicates that the request has been fulfilled and has resulted in one or more new resources being created. The primary resource created by the request is identified by either a <a href="##field.location" class="smpl">Location</a> header field in the response or, if no <a href="##field.location" class="smpl">Location</a> header field is received, by the target URI.</p></div><div id="rfc.section.15.3.2.p.2"><p>The 201 response content typically describes and links to the resource(s) created. Any validator fields (<a href="##response.validator" title="Validator Fields">Section 8.8</a>) sent in the response convey the current validators for a new representation created by the request. Note that the PUT method (<a href="##PUT" id="rfc.xref.PUT.5" title="PUT">Section 9.3.4</a>) has additional requirements that might preclude sending such validators.</p></div></section><section id="status.202"><h4 id="rfc.section.15.3.3"><a href="##rfc.section.15.3.3">15.3.3.</a>&nbsp;<a href="##status.202">202 Accepted</a></h4><div id="rfc.section.15.3.3.p.1"><p>The 202 (Accepted) status code indicates that the request has been accepted for processing, but the processing has not been completed. The request might or might not eventually be acted upon, as it might be disallowed when processing actually takes place. There is no facility in HTTP for re-sending a status code from an asynchronous operation.</p></div><div id="rfc.section.15.3.3.p.2"><p>The 202 response is intentionally noncommittal. Its purpose is to allow a server to accept a request for some other process (perhaps a batch-oriented process that is only run once per day) without requiring that the user agent's connection to the server persist until the process is completed. The representation sent with this response ought to describe the request's current status and point to (or embed) a status monitor that can provide the user with an estimate of when the request will be fulfilled.</p></div></section><section id="status.203"><h4 id="rfc.section.15.3.4"><a href="##rfc.section.15.3.4">15.3.4.</a>&nbsp;<a href="##status.203">203 Non-Authoritative Information</a></h4><div id="rfc.section.15.3.4.p.1"><p>The 203 (Non-Authoritative Information) status code indicates that the request was successful but the enclosed content has been modified from that of the origin server's <a href="##status.200" class="smpl">200 (OK)</a> response by a transforming proxy (<a href="##message.transformations" title="Message Transformations">Section 7.7</a>). This status code allows the proxy to notify recipients when a transformation has been applied, since that knowledge might impact later decisions regarding the content. For example, future cache validation requests for the content might only be applicable along the same request path (through the same proxies).</p></div><div id="rfc.section.15.3.4.p.2"><p>A 203 response is heuristically cacheable; i.e., unless otherwise indicated by the method definition or explicit cache controls (see <a href="https://httpwg.org/specs/rfc9111.html#heuristic.freshness" title="Calculating Heuristic Freshness">Section 4.2.2</a> of <a href="##CACHING" id="rfc.xref.CACHING.28"><cite title="HTTP Caching">[CACHING]</cite></a>).</p></div></section><section id="status.204"><h4 id="rfc.section.15.3.5"><a href="##rfc.section.15.3.5">15.3.5.</a>&nbsp;<a href="##status.204">204 No Content</a></h4><div id="rfc.section.15.3.5.p.1"><p>The 204 (No Content) status code indicates that the server has successfully fulfilled the request and that there is no additional content to send in the response content. Metadata in the response header fields refer to the <a href="##target.resource" class="smpl">target resource</a> and its <a href="##selected.representation" class="smpl">selected representation</a> after the requested action was applied.</p></div><div id="rfc.section.15.3.5.p.2"><p>For example, if a 204 status code is received in response to a PUT request and the response contains an <a href="##field.etag" class="smpl">ETag</a> field, then the PUT was successful and the ETag field value contains the entity tag for the new representation of that target resource.</p></div><div id="rfc.section.15.3.5.p.3"><p>The 204 response allows a server to indicate that the action has been successfully applied to the target resource, while implying that the user agent does not need to traverse away from its current "document view" (if any). The server assumes that the user agent will provide some indication of the success to its user, in accord with its own interface, and apply any new or updated metadata in the response to its active representation.</p></div><div id="rfc.section.15.3.5.p.4"><p>For example, a 204 status code is commonly used with document editing interfaces corresponding to a "save" action, such that the document being saved remains available to the user for editing. It is also frequently used with interfaces that expect automated data transfers to be prevalent, such as within distributed version control systems.</p></div><div id="rfc.section.15.3.5.p.5"><p>A 204 response is terminated by the end of the header section; it cannot contain content or trailers.</p></div><div id="rfc.section.15.3.5.p.6"><p>A 204 response is heuristically cacheable; i.e., unless otherwise indicated by the method definition or explicit cache controls (see <a href="https://httpwg.org/specs/rfc9111.html#heuristic.freshness" title="Calculating Heuristic Freshness">Section 4.2.2</a> of <a href="##CACHING" id="rfc.xref.CACHING.29"><cite title="HTTP Caching">[CACHING]</cite></a>).</p></div></section><section id="status.205"><h4 id="rfc.section.15.3.6"><a href="##rfc.section.15.3.6">15.3.6.</a>&nbsp;<a href="##status.205">205 Reset Content</a></h4><div id="rfc.section.15.3.6.p.1"><p>The 205 (Reset Content) status code indicates that the server has fulfilled the request and desires that the user agent reset the "document view", which caused the request to be sent, to its original state as received from the origin server.</p></div><div id="rfc.section.15.3.6.p.2"><p>This response is intended to support a common data entry use case where the user receives content that supports data entry (a form, notepad, canvas, etc.), enters or manipulates data in that space, causes the entered data to be submitted in a request, and then the data entry mechanism is reset for the next entry so that the user can easily initiate another input action.</p></div><div id="rfc.section.15.3.6.p.3"><p>Since the 205 status code implies that no additional content will be provided, a server <em class="bcp14">MUST NOT</em> generate content in a 205 response.</p></div></section><section id="status.206"><h4 id="rfc.section.15.3.7"><a href="##rfc.section.15.3.7">15.3.7.</a>&nbsp;<a href="##status.206">206 Partial Content</a></h4><div id="rfc.section.15.3.7.p.1"><p>The 206 (Partial Content) status code indicates that the server is successfully fulfilling a range request for the target resource by transferring one or more parts of the <a href="##selected.representation" class="smpl">selected representation</a>.</p></div><div id="rfc.section.15.3.7.p.2"><p>A server that supports range requests (<a href="##range.requests" title="Range Requests">Section 14</a>) will usually attempt to satisfy all of the requested ranges, since sending less data will likely result in another client request for the remainder. However, a server might want to send only a subset of the data requested for reasons of its own, such as temporary unavailability, cache efficiency, load balancing, etc. Since a 206 response is self-descriptive, the client can still understand a response that only partially satisfies its range request.</p></div><div id="rfc.section.15.3.7.p.3"><p>A client <em class="bcp14">MUST</em> inspect a 206 response's <a href="##field.content-type" class="smpl">Content-Type</a> and <a href="##field.content-range" class="smpl">Content-Range</a> field(s) to determine what parts are enclosed and whether additional requests are needed.</p></div><div id="rfc.section.15.3.7.p.4"><p>A server that generates a 206 response <em class="bcp14">MUST</em> generate the following header fields, in addition to those required in the subsections below, if the field would have been sent in a <a href="##status.200" class="smpl">200 (OK)</a> response to the same request: <a href="##field.date" class="smpl">Date</a>, <a href="https://httpwg.org/specs/rfc9111.html#field.cache-control" class="smpl">Cache-Control</a>, <a href="##field.etag" class="smpl">ETag</a>, <a href="https://httpwg.org/specs/rfc9111.html#field.expires" class="smpl">Expires</a>, <a href="##field.content-location" class="smpl">Content-Location</a>, and <a href="##field.vary" class="smpl">Vary</a>.</p></div><div id="rfc.section.15.3.7.p.5"><p>A <a href="##field.content-length" class="smpl">Content-Length</a> header field present in a 206 response indicates the number of octets in the content of this message, which is usually not the complete length of the selected representation. Each <a href="##field.content-range" class="smpl">Content-Range</a> header field includes information about the selected representation's complete length.</p></div><div id="rfc.section.15.3.7.p.6"><p>A sender that generates a 206 response to a request with an <a href="##field.if-range" class="smpl">If-Range</a> header field <em class="bcp14">SHOULD NOT</em> generate other representation header fields beyond those required because the client already has a prior response containing those header fields. Otherwise, a sender <em class="bcp14">MUST</em> generate all of the representation header fields that would have been sent in a <a href="##status.200" class="smpl">200 (OK)</a> response to the same request.</p></div><div id="rfc.section.15.3.7.p.7"><p>A 206 response is heuristically cacheable; i.e., unless otherwise indicated by explicit cache controls (see <a href="https://httpwg.org/specs/rfc9111.html#heuristic.freshness" title="Calculating Heuristic Freshness">Section 4.2.2</a> of <a href="##CACHING" id="rfc.xref.CACHING.30"><cite title="HTTP Caching">[CACHING]</cite></a>).</p></div><section id="partial.single"><h5 id="rfc.section.15.3.7.1"><a href="##rfc.section.15.3.7.1">15.3.7.1.</a>&nbsp;<a href="##partial.single">Single Part</a></h5><div id="rfc.section.15.3.7.1.p.1" class="avoidbreakafter"><p>If a single part is being transferred, the server generating the 206 response <em class="bcp14">MUST</em> generate a <a href="##field.content-range" class="smpl">Content-Range</a> header field, describing what range of the selected representation is enclosed, and a content consisting of the range. For example:</p></div><div id="rfc.section.15.3.7.1.p.2"><pre class="text">HTTP/1.1 206 Partial Content
Date: Wed, 15 Nov 1995 06:25:24 GMT
Last-Modified: Wed, 15 Nov 1995 04:58:08 GMT
Content-Range: bytes 21010-47021/47022
Content-Length: 26012
Content-Type: image/gif

... 26012 bytes of partial image data ...
</pre></div></section><section id="partial.multipart"><h5 id="rfc.section.15.3.7.2"><a href="##rfc.section.15.3.7.2">15.3.7.2.</a>&nbsp;<a href="##partial.multipart">Multiple Parts</a></h5><div id="rfc.section.15.3.7.2.p.1"><p>If multiple parts are being transferred, the server generating the 206 response <em class="bcp14">MUST</em> generate "multipart/byteranges" content, as defined in <a href="##multipart.byteranges" title="Media Type multipart/byteranges">Section 14.6</a>, and a <a href="##field.content-type" class="smpl">Content-Type</a> header field containing the "multipart/byteranges" media type and its required boundary parameter. To avoid confusion with single-part responses, a server <em class="bcp14">MUST NOT</em> generate a <a href="##field.content-range" class="smpl">Content-Range</a> header field in the HTTP header section of a multiple part response (this field will be sent in each part instead).</p></div><div id="rfc.section.15.3.7.2.p.2" class="avoidbreakafter"><p>Within the header area of each body part in the multipart content, the server <em class="bcp14">MUST</em> generate a <a href="##field.content-range" class="smpl">Content-Range</a> header field corresponding to the range being enclosed in that body part. If the selected representation would have had a <a href="##field.content-type" class="smpl">Content-Type</a> header field in a <a href="##status.200" class="smpl">200 (OK)</a> response, the server <em class="bcp14">SHOULD</em> generate that same <a href="##field.content-type" class="smpl">Content-Type</a> header field in the header area of each body part. For example:</p></div><div id="rfc.section.15.3.7.2.p.3"><pre class="text">HTTP/1.1 206 Partial Content
Date: Wed, 15 Nov 1995 06:25:24 GMT
Last-Modified: Wed, 15 Nov 1995 04:58:08 GMT
Content-Length: 1741
Content-Type: multipart/byteranges; boundary=THIS_STRING_SEPARATES

--THIS_STRING_SEPARATES
Content-Type: application/pdf
Content-Range: bytes 500-999/8000

...the first range...
--THIS_STRING_SEPARATES
Content-Type: application/pdf
Content-Range: bytes 7000-7999/8000

...the second range
--THIS_STRING_SEPARATES--
</pre></div><div id="rfc.section.15.3.7.2.p.4"><p>When multiple ranges are requested, a server <em class="bcp14">MAY</em> coalesce any of the ranges that overlap, or that are separated by a gap that is smaller than the overhead of sending multiple parts, regardless of the order in which the corresponding range-spec appeared in the received <a href="##field.range" class="smpl">Range</a> header field. Since the typical overhead between each part of a "multipart/byteranges" is around 80 bytes, depending on the selected representation's media type and the chosen boundary parameter length, it can be less efficient to transfer many small disjoint parts than it is to transfer the entire selected representation.</p></div><div id="rfc.section.15.3.7.2.p.5"><p>A server <em class="bcp14">MUST NOT</em> generate a multipart response to a request for a single range, since a client that does not request multiple parts might not support multipart responses. However, a server <em class="bcp14">MAY</em> generate a "multipart/byteranges" response with only a single body part if multiple ranges were requested and only one range was found to be satisfiable or only one range remained after coalescing. A client that cannot process a "multipart/byteranges" response <em class="bcp14">MUST NOT</em> generate a request that asks for multiple ranges.</p></div><div id="rfc.section.15.3.7.2.p.6"><p>A server that generates a multipart response <em class="bcp14">SHOULD</em> send the parts in the same order that the corresponding range-spec appeared in the received <a href="##field.range" class="smpl">Range</a> header field, excluding those ranges that were deemed unsatisfiable or that were coalesced into other ranges. A client that receives a multipart response <em class="bcp14">MUST</em> inspect the <a href="##field.content-range" class="smpl">Content-Range</a> header field present in each body part in order to determine which range is contained in that body part; a client cannot rely on receiving the same ranges that it requested, nor the same order that it requested.</p></div></section><section id="combining.byte.ranges"><h5 id="rfc.section.15.3.7.3"><a href="##rfc.section.15.3.7.3">15.3.7.3.</a>&nbsp;<a href="##combining.byte.ranges">Combining Parts</a></h5><div id="rfc.section.15.3.7.3.p.1"><p>A response might transfer only a subrange of a representation if the connection closed prematurely or if the request used one or more Range specifications. After several such transfers, a client might have received several ranges of the same representation. These ranges can only be safely combined if they all have in common the same strong validator (<a href="##weak.and.strong.validators" title="Weak versus Strong">Section 8.8.1</a>).</p></div><div id="rfc.section.15.3.7.3.p.2"><p>A client that has received multiple partial responses to GET requests on a target resource <em class="bcp14">MAY</em> combine those responses into a larger continuous range if they share the same strong validator.</p></div><div id="rfc.section.15.3.7.3.p.3"><p>If the most recent response is an incomplete <a href="##status.200" class="smpl">200 (OK)</a> response, then the header fields of that response are used for any combined response and replace those of the matching stored responses.</p></div><div id="rfc.section.15.3.7.3.p.4"><p>If the most recent response is a <a href="##status.206" class="smpl">206 (Partial Content)</a> response and at least one of the matching stored responses is a <a href="##status.200" class="smpl">200 (OK)</a>, then the combined response header fields consist of the most recent 200 response's header fields. If all of the matching stored responses are 206 responses, then the stored response with the most recent header fields is used as the source of header fields for the combined response, except that the client <em class="bcp14">MUST</em> use other header fields provided in the new response, aside from <a href="##field.content-range" class="smpl">Content-Range</a>, to replace all instances of the corresponding header fields in the stored response.</p></div><div id="rfc.section.15.3.7.3.p.5"><p>The combined response content consists of the union of partial content ranges within the new response and all of the matching stored responses. If the union consists of the entire range of the representation, then the client <em class="bcp14">MUST</em> process the combined response as if it were a complete <a href="##status.200" class="smpl">200 (OK)</a> response, including a <a href="##field.content-length" class="smpl">Content-Length</a> header field that reflects the complete length. Otherwise, the client <em class="bcp14">MUST</em> process the set of continuous ranges as one of the following: an incomplete <a href="##status.200" class="smpl">200 (OK)</a> response if the combined response is a prefix of the representation, a single <a href="##status.206" class="smpl">206 (Partial Content)</a> response containing "multipart/byteranges" content, or multiple <a href="##status.206" class="smpl">206 (Partial Content)</a> responses, each with one continuous range that is indicated by a <a href="##field.content-range" class="smpl">Content-Range</a> header field.</p></div></section></section></section><section id="status.3xx"><h3 id="rfc.section.15.4"><a href="##rfc.section.15.4">15.4.</a>&nbsp;<a href="##status.3xx">Redirection 3xx</a></h3><div id="rfc.section.15.4.p.1" class="avoidbreakafter"><p>The 3xx (Redirection) class of status code indicates that further action needs to be taken by the user agent in order to fulfill the request. There are several types of redirects:</p></div><div id="rfc.section.15.4.p.2"><ol><li>Redirects that indicate this resource might be available at a different URI, as provided by the <a href="##field.location" class="smpl">Location</a> header field, as in the status codes <a href="##status.301" class="smpl">301 (Moved Permanently)</a>, <a href="##status.302" class="smpl">302 (Found)</a>, <a href="##status.307" class="smpl">307 (Temporary Redirect)</a>, and <a href="##status.308" class="smpl">308 (Permanent Redirect)</a>.</li><li>Redirection that offers a choice among matching resources capable of representing this resource, as in the <a href="##status.300" class="smpl">300 (Multiple Choices)</a> status code.</li><li>Redirection to a different resource, identified by the <a href="##field.location" class="smpl">Location</a> header field, that can represent an indirect response to the request, as in the <a href="##status.303" class="smpl">303 (See Other)</a> status code.</li><li>Redirection to a previously stored result, as in the <a href="##status.304" class="smpl">304 (Not Modified)</a> status code.</li></ol></div><div id="rfc.section.15.4.p.3"><aside><div id="rfc.section.15.4.p.3.1"><p><b>Note:</b> In HTTP/1.0, the status codes <a href="##status.301" class="smpl">301 (Moved Permanently)</a> and <a href="##status.302" class="smpl">302 (Found)</a> were originally defined as method-preserving (<a href="##HTTP10" id="rfc.xref.HTTP10.2"><cite title="Hypertext Transfer Protocol -- HTTP/1.0">[HTTP/1.0]</cite></a>, <a href="https://www.rfc-editor.org/rfc/rfc1945.html#section-9.3">Section 9.3</a>) to match their implementation at CERN; <a href="##status.303" class="smpl">303 (See Other)</a> was defined for a redirection that changed its method to GET. However, early user agents split on whether to redirect POST requests as POST (according to then-current specification) or as GET (the safer alternative when redirected to a different site). Prevailing practice eventually converged on changing the method to GET. <a href="##status.307" class="smpl">307 (Temporary Redirect)</a> and <a href="##status.308" class="smpl">308 (Permanent Redirect)</a> <a href="##RFC7538" id="rfc.xref.RFC7538.2"><cite title="The Hypertext Transfer Protocol Status Code 308 (Permanent Redirect)">[RFC7538]</cite></a> were later added to unambiguously indicate method-preserving redirects, and status codes <a href="##status.301" class="smpl">301</a> and <a href="##status.302" class="smpl">302</a> have been adjusted to allow a POST request to be redirected as GET.</p></div></aside></div><div id="rfc.section.15.4.p.4"><p>If a <a href="##field.location" class="smpl">Location</a> header field (<a href="##field.location" id="rfc.xref.field.location.2" title="Location">Section 10.2.2</a>) is provided, the user agent <em class="bcp14">MAY</em> automatically redirect its request to the URI referenced by the Location field value, even if the specific status code is not understood. Automatic redirection needs to be done with care for methods not known to be <a href="##safe.methods" class="smpl">safe</a>, as defined in <a href="##safe.methods" title="Safe Methods">Section 9.2.1</a>, since the user might not wish to redirect an unsafe request.</p></div><div id="rfc.section.15.4.p.5" class="avoidbreakafter"><p>When automatically following a redirected request, the user agent <em class="bcp14">SHOULD</em> resend the original request message with the following modifications:</p></div><div id="rfc.section.15.4.p.6"><ol><li><div><p>Replace the target URI with the URI referenced by the redirection response's <a href="##field.location" class="smpl">Location</a> header field value after resolving it relative to the original request's target URI.</p></div> </li><li><div class="avoidbreakafter"><p>Remove header fields that were automatically generated by the implementation, replacing them with updated values as appropriate to the new request. This includes:</p></div> <div><ol><li>Connection-specific header fields (see <a href="##field.connection" id="rfc.xref.field.connection.5" title="Connection">Section 7.6.1</a>),</li><li>Header fields specific to the client's proxy configuration, including (but not limited to) <a href="##field.proxy-authorization" class="smpl">Proxy-Authorization</a>,</li><li>Origin-specific header fields (if any), including (but not limited to) <a href="##field.host" class="smpl">Host</a>,</li><li>Validating header fields that were added by the implementation's cache (e.g., <a href="##field.if-none-match" class="smpl">If-None-Match</a>, <a href="##field.if-modified-since" class="smpl">If-Modified-Since</a>), and</li><li>Resource-specific header fields, including (but not limited to) <a href="##field.referer" class="smpl">Referer</a>, Origin, <a href="##field.authorization" class="smpl">Authorization</a>, and Cookie.</li></ol></div> </li><li><div><p>Consider removing header fields that were not automatically generated by the implementation (i.e., those present in the request because they were added by the calling context) where there are security implications; this includes but is not limited to <a href="##field.authorization" class="smpl">Authorization</a> and Cookie.</p></div> </li><li><div><p>Change the request method according to the redirecting status code's semantics, if applicable.</p></div> </li><li><div><p>If the request method has been changed to GET or HEAD, remove content-specific header fields, including (but not limited to) <a href="##field.content-encoding" class="smpl">Content-Encoding</a>, <a href="##field.content-language" class="smpl">Content-Language</a>, <a href="##field.content-location" class="smpl">Content-Location</a>, <a href="##field.content-type" class="smpl">Content-Type</a>, <a href="##field.content-length" class="smpl">Content-Length</a>, Digest, <a href="##field.last-modified" class="smpl">Last-Modified</a>.</p></div> </li></ol></div><div id="rfc.section.15.4.p.7"><p>A client <em class="bcp14">SHOULD</em> detect and intervene in cyclical redirections (i.e., "infinite" redirection loops).</p></div><div id="rfc.section.15.4.p.8"><aside><div id="rfc.section.15.4.p.8.1"><p><b>Note:</b> An earlier version of this specification recommended a maximum of five redirections (<a href="##RFC2068" id="rfc.xref.RFC2068.3"><cite title="Hypertext Transfer Protocol -- HTTP/1.1">[RFC2068]</cite></a>, <a href="https://www.rfc-editor.org/rfc/rfc2068.html#section-10.3">Section 10.3</a>). Content developers need to be aware that some clients might implement such a fixed limitation.</p></div></aside></div><section id="status.300"><h4 id="rfc.section.15.4.1"><a href="##rfc.section.15.4.1">15.4.1.</a>&nbsp;<a href="##status.300">300 Multiple Choices</a></h4><div id="rfc.section.15.4.1.p.1"><p>The 300 (Multiple Choices) status code indicates that the <a href="##target.resource" class="smpl">target resource</a> has more than one representation, each with its own more specific identifier, and information about the alternatives is being provided so that the user (or user agent) can select a preferred representation by redirecting its request to one or more of those identifiers. In other words, the server desires that the user agent engage in reactive negotiation to select the most appropriate representation(s) for its needs (<a href="##content.negotiation" title="Content Negotiation">Section 12</a>).</p></div><div id="rfc.section.15.4.1.p.2"><p>If the server has a preferred choice, the server <em class="bcp14">SHOULD</em> generate a <a href="##field.location" class="smpl">Location</a> header field containing a preferred choice's URI reference. The user agent <em class="bcp14">MAY</em> use the Location field value for automatic redirection.</p></div><div id="rfc.section.15.4.1.p.3"><p>For request methods other than HEAD, the server <em class="bcp14">SHOULD</em> generate content in the 300 response containing a list of representation metadata and URI reference(s) from which the user or user agent can choose the one most preferred. The user agent <em class="bcp14">MAY</em> make a selection from that list automatically if it understands the provided media type. A specific format for automatic selection is not defined by this specification because HTTP tries to remain orthogonal to the definition of its content. In practice, the representation is provided in some easily parsed format believed to be acceptable to the user agent, as determined by shared design or content negotiation, or in some commonly accepted hypertext format.</p></div><div id="rfc.section.15.4.1.p.4"><p>A 300 response is heuristically cacheable; i.e., unless otherwise indicated by the method definition or explicit cache controls (see <a href="https://httpwg.org/specs/rfc9111.html#heuristic.freshness" title="Calculating Heuristic Freshness">Section 4.2.2</a> of <a href="##CACHING" id="rfc.xref.CACHING.31"><cite title="HTTP Caching">[CACHING]</cite></a>).</p></div><div id="rfc.section.15.4.1.p.5"><aside><div id="rfc.section.15.4.1.p.5.1"><p><b>Note:</b> The original proposal for the 300 status code defined the URI header field as providing a list of alternative representations, such that it would be usable for 200, 300, and 406 responses and be transferred in responses to the HEAD method. However, lack of deployment and disagreement over syntax led to both URI and Alternates (a subsequent proposal) being dropped from this specification. It is possible to communicate the list as a Link header field value <a href="##RFC8288" id="rfc.xref.RFC8288.1"><cite title="Web Linking">[RFC8288]</cite></a> whose members have a relationship of "alternate", though deployment is a chicken-and-egg problem.</p></div></aside></div></section><section id="status.301"><h4 id="rfc.section.15.4.2"><a href="##rfc.section.15.4.2">15.4.2.</a>&nbsp;<a href="##status.301">301 Moved Permanently</a></h4><div id="rfc.section.15.4.2.p.1"><p>The 301 (Moved Permanently) status code indicates that the <a href="##target.resource" class="smpl">target resource</a> has been assigned a new permanent URI and any future references to this resource ought to use one of the enclosed URIs. The server is suggesting that a user agent with link-editing capability can permanently replace references to the target URI with one of the new references sent by the server. However, this suggestion is usually ignored unless the user agent is actively editing references (e.g., engaged in authoring content), the connection is secured, and the origin server is a trusted authority for the content being edited.</p></div><div id="rfc.section.15.4.2.p.2"><p>The server <em class="bcp14">SHOULD</em> generate a <a href="##field.location" class="smpl">Location</a> header field in the response containing a preferred URI reference for the new permanent URI. The user agent <em class="bcp14">MAY</em> use the Location field value for automatic redirection. The server's response content usually contains a short hypertext note with a hyperlink to the new URI(s).</p></div><div id="rfc.section.15.4.2.p.3"><aside><div id="rfc.section.15.4.2.p.3.1"><p><b>Note:</b> For historical reasons, a user agent <em class="bcp14">MAY</em> change the request method from POST to GET for the subsequent request. If this behavior is undesired, the <a href="##status.308" class="smpl">308 (Permanent Redirect)</a> status code can be used instead.</p></div></aside></div><div id="rfc.section.15.4.2.p.4"><p>A 301 response is heuristically cacheable; i.e., unless otherwise indicated by the method definition or explicit cache controls (see <a href="https://httpwg.org/specs/rfc9111.html#heuristic.freshness" title="Calculating Heuristic Freshness">Section 4.2.2</a> of <a href="##CACHING" id="rfc.xref.CACHING.32"><cite title="HTTP Caching">[CACHING]</cite></a>).</p></div></section><section id="status.302"><h4 id="rfc.section.15.4.3"><a href="##rfc.section.15.4.3">15.4.3.</a>&nbsp;<a href="##status.302">302 Found</a></h4><div id="rfc.section.15.4.3.p.1"><p>The 302 (Found) status code indicates that the target resource resides temporarily under a different URI. Since the redirection might be altered on occasion, the client ought to continue to use the target URI for future requests.</p></div><div id="rfc.section.15.4.3.p.2"><p>The server <em class="bcp14">SHOULD</em> generate a <a href="##field.location" class="smpl">Location</a> header field in the response containing a URI reference for the different URI. The user agent <em class="bcp14">MAY</em> use the Location field value for automatic redirection. The server's response content usually contains a short hypertext note with a hyperlink to the different URI(s).</p></div><div id="rfc.section.15.4.3.p.3"><aside><div id="rfc.section.15.4.3.p.3.1"><p><b>Note:</b> For historical reasons, a user agent <em class="bcp14">MAY</em> change the request method from POST to GET for the subsequent request. If this behavior is undesired, the <a href="##status.307" class="smpl">307 (Temporary Redirect)</a> status code can be used instead.</p></div></aside></div></section><section id="status.303"><h4 id="rfc.section.15.4.4"><a href="##rfc.section.15.4.4">15.4.4.</a>&nbsp;<a href="##status.303">303 See Other</a></h4><div id="rfc.section.15.4.4.p.1"><p>The 303 (See Other) status code indicates that the server is redirecting the user agent to a different resource, as indicated by a URI in the <a href="##field.location" class="smpl">Location</a> header field, which is intended to provide an indirect response to the original request. A user agent can perform a retrieval request targeting that URI (a GET or HEAD request if using HTTP), which might also be redirected, and present the eventual result as an answer to the original request. Note that the new URI in the Location header field is not considered equivalent to the target URI.</p></div><div id="rfc.section.15.4.4.p.2"><p>This status code is applicable to any HTTP method. It is primarily used to allow the output of a POST action to redirect the user agent to a different resource, since doing so provides the information corresponding to the POST response as a resource that can be separately identified, bookmarked, and cached.</p></div><div id="rfc.section.15.4.4.p.3"><p>A 303 response to a GET request indicates that the origin server does not have a representation of the <a href="##target.resource" class="smpl">target resource</a> that can be transferred by the server over HTTP. However, the <a href="##field.location" class="smpl">Location</a> field value refers to a resource that is descriptive of the target resource, such that making a retrieval request on that other resource might result in a representation that is useful to recipients without implying that it represents the original target resource. Note that answers to the questions of what can be represented, what representations are adequate, and what might be a useful description are outside the scope of HTTP.</p></div><div id="rfc.section.15.4.4.p.4"><p>Except for responses to a HEAD request, the representation of a 303 response ought to contain a short hypertext note with a hyperlink to the same URI reference provided in the <a href="##field.location" class="smpl">Location</a> header field.</p></div></section><section id="status.304"><h4 id="rfc.section.15.4.5"><a href="##rfc.section.15.4.5">15.4.5.</a>&nbsp;<a href="##status.304">304 Not Modified</a></h4><div id="rfc.section.15.4.5.p.1"><p>The 304 (Not Modified) status code indicates that a conditional GET or HEAD request has been received and would have resulted in a <a href="##status.200" class="smpl">200 (OK)</a> response if it were not for the fact that the condition evaluated to false. In other words, there is no need for the server to transfer a representation of the target resource because the request indicates that the client, which made the request conditional, already has a valid representation; the server is therefore redirecting the client to make use of that stored representation as if it were the content of a <a href="##status.200" class="smpl">200 (OK)</a> response.</p></div><div id="rfc.section.15.4.5.p.2" class="avoidbreakafter"><p>The server generating a 304 response <em class="bcp14">MUST</em> generate any of the following header fields that would have been sent in a <a href="##status.200" class="smpl">200 (OK)</a> response to the same request:</p></div><div id="rfc.section.15.4.5.p.3"><ul><li><a href="##field.content-location" class="smpl">Content-Location</a>, <a href="##field.date" class="smpl">Date</a>, <a href="##field.etag" class="smpl">ETag</a>, and <a href="##field.vary" class="smpl">Vary</a> </li><li><a href="https://httpwg.org/specs/rfc9111.html#field.cache-control" class="smpl">Cache-Control</a> and <a href="https://httpwg.org/specs/rfc9111.html#field.expires" class="smpl">Expires</a> (see <a href="##CACHING" id="rfc.xref.CACHING.33"><cite title="HTTP Caching">[CACHING]</cite></a>)</li></ul></div><div id="rfc.section.15.4.5.p.4"><p>Since the goal of a 304 response is to minimize information transfer when the recipient already has one or more cached representations, a sender <em class="bcp14">SHOULD NOT</em> generate representation metadata other than the above listed fields unless said metadata exists for the purpose of guiding cache updates (e.g., <a href="##field.last-modified" class="smpl">Last-Modified</a> might be useful if the response does not have an <a href="##field.etag" class="smpl">ETag</a> field).</p></div><div id="rfc.section.15.4.5.p.5"><p>Requirements on a cache that receives a 304 response are defined in <a href="https://httpwg.org/specs/rfc9111.html#freshening.responses" title="Freshening Stored Responses upon Validation">Section 4.3.4</a> of <a href="##CACHING" id="rfc.xref.CACHING.34"><cite title="HTTP Caching">[CACHING]</cite></a>. If the conditional request originated with an outbound client, such as a user agent with its own cache sending a conditional GET to a shared proxy, then the proxy <em class="bcp14">SHOULD</em> forward the 304 response to that client.</p></div><div id="rfc.section.15.4.5.p.6"><p>A 304 response is terminated by the end of the header section; it cannot contain content or trailers.</p></div></section><section id="status.305"><h4 id="rfc.section.15.4.6"><a href="##rfc.section.15.4.6">15.4.6.</a>&nbsp;<a href="##status.305">305 Use Proxy</a></h4><div id="rfc.section.15.4.6.p.1"><p>The 305 (Use Proxy) status code was defined in a previous version of this specification and is now deprecated (<a href="https://www.rfc-editor.org/rfc/rfc7231.html#appendix-B">Appendix B</a> of <a href="##RFC7231" id="rfc.xref.RFC7231.2"><cite title="Hypertext Transfer Protocol (HTTP/1.1): Semantics and Content">[RFC7231]</cite></a>).</p></div></section><section id="status.306"><h4 id="rfc.section.15.4.7"><a href="##rfc.section.15.4.7">15.4.7.</a>&nbsp;<a href="##status.306">306 (Unused)</a></h4><div id="rfc.section.15.4.7.p.1"><p>The 306 status code was defined in a previous version of this specification, is no longer used, and the code is reserved.</p></div></section><section id="status.307"><h4 id="rfc.section.15.4.8"><a href="##rfc.section.15.4.8">15.4.8.</a>&nbsp;<a href="##status.307">307 Temporary Redirect</a></h4><div id="rfc.section.15.4.8.p.1"><p>The 307 (Temporary Redirect) status code indicates that the <a href="##target.resource" class="smpl">target resource</a> resides temporarily under a different URI and the user agent <em class="bcp14">MUST NOT</em> change the request method if it performs an automatic redirection to that URI. Since the redirection can change over time, the client ought to continue using the original target URI for future requests.</p></div><div id="rfc.section.15.4.8.p.2"><p>The server <em class="bcp14">SHOULD</em> generate a <a href="##field.location" class="smpl">Location</a> header field in the response containing a URI reference for the different URI. The user agent <em class="bcp14">MAY</em> use the Location field value for automatic redirection. The server's response content usually contains a short hypertext note with a hyperlink to the different URI(s).</p></div></section><section id="status.308"><h4 id="rfc.section.15.4.9"><a href="##rfc.section.15.4.9">15.4.9.</a>&nbsp;<a href="##status.308">308 Permanent Redirect</a></h4><div id="rfc.section.15.4.9.p.1"><p>The 308 (Permanent Redirect) status code indicates that the <a href="##target.resource" class="smpl">target resource</a> has been assigned a new permanent URI and any future references to this resource ought to use one of the enclosed URIs. The server is suggesting that a user agent with link-editing capability can permanently replace references to the target URI with one of the new references sent by the server. However, this suggestion is usually ignored unless the user agent is actively editing references (e.g., engaged in authoring content), the connection is secured, and the origin server is a trusted authority for the content being edited.</p></div><div id="rfc.section.15.4.9.p.2"><p>The server <em class="bcp14">SHOULD</em> generate a <a href="##field.location" class="smpl">Location</a> header field in the response containing a preferred URI reference for the new permanent URI. The user agent <em class="bcp14">MAY</em> use the Location field value for automatic redirection. The server's response content usually contains a short hypertext note with a hyperlink to the new URI(s).</p></div><div id="rfc.section.15.4.9.p.3"><p>A 308 response is heuristically cacheable; i.e., unless otherwise indicated by the method definition or explicit cache controls (see <a href="https://httpwg.org/specs/rfc9111.html#heuristic.freshness" title="Calculating Heuristic Freshness">Section 4.2.2</a> of <a href="##CACHING" id="rfc.xref.CACHING.35"><cite title="HTTP Caching">[CACHING]</cite></a>).</p></div><div id="rfc.section.15.4.9.p.4"><aside><div id="rfc.section.15.4.9.p.4.1"><p><b>Note:</b> This status code is much younger (June 2014) than its sibling codes and thus might not be recognized everywhere. See <a href="https://www.rfc-editor.org/rfc/rfc7538.html#section-4">Section 4</a> of <a href="##RFC7538" id="rfc.xref.RFC7538.3"><cite title="The Hypertext Transfer Protocol Status Code 308 (Permanent Redirect)">[RFC7538]</cite></a> for deployment considerations.</p></div></aside></div></section></section><section id="status.4xx"><h3 id="rfc.section.15.5"><a href="##rfc.section.15.5">15.5.</a>&nbsp;<a href="##status.4xx">Client Error 4xx</a></h3><div id="rfc.section.15.5.p.1"><p>The 4xx (Client Error) class of status code indicates that the client seems to have erred. Except when responding to a HEAD request, the server <em class="bcp14">SHOULD</em> send a representation containing an explanation of the error situation, and whether it is a temporary or permanent condition. These status codes are applicable to any request method. User agents <em class="bcp14">SHOULD</em> display any included representation to the user.</p></div><section id="status.400"><h4 id="rfc.section.15.5.1"><a href="##rfc.section.15.5.1">15.5.1.</a>&nbsp;<a href="##status.400">400 Bad Request</a></h4><div id="rfc.section.15.5.1.p.1"><p>The 400 (Bad Request) status code indicates that the server cannot or will not process the request due to something that is perceived to be a client error (e.g., malformed request syntax, invalid request message framing, or deceptive request routing).</p></div></section><section id="status.401"><h4 id="rfc.section.15.5.2"><a href="##rfc.section.15.5.2">15.5.2.</a>&nbsp;<a href="##status.401">401 Unauthorized</a></h4><div id="rfc.section.15.5.2.p.1"><p>The 401 (Unauthorized) status code indicates that the request has not been applied because it lacks valid authentication credentials for the target resource. The server generating a 401 response <em class="bcp14">MUST</em> send a <a href="##field.www-authenticate" class="smpl">WWW-Authenticate</a> header field (<a href="##field.www-authenticate" id="rfc.xref.field.www-authenticate.2" title="WWW-Authenticate">Section 11.6.1</a>) containing at least one challenge applicable to the target resource.</p></div><div id="rfc.section.15.5.2.p.2"><p>If the request included authentication credentials, then the 401 response indicates that authorization has been refused for those credentials. The user agent <em class="bcp14">MAY</em> repeat the request with a new or replaced <a href="##field.authorization" class="smpl">Authorization</a> header field (<a href="##field.authorization" id="rfc.xref.field.authorization.3" title="Authorization">Section 11.6.2</a>). If the 401 response contains the same challenge as the prior response, and the user agent has already attempted authentication at least once, then the user agent <em class="bcp14">SHOULD</em> present the enclosed representation to the user, since it usually contains relevant diagnostic information.</p></div></section><section id="status.402"><h4 id="rfc.section.15.5.3"><a href="##rfc.section.15.5.3">15.5.3.</a>&nbsp;<a href="##status.402">402 Payment Required</a></h4><div id="rfc.section.15.5.3.p.1"><p>The 402 (Payment Required) status code is reserved for future use.</p></div></section><section id="status.403"><h4 id="rfc.section.15.5.4"><a href="##rfc.section.15.5.4">15.5.4.</a>&nbsp;<a href="##status.403">403 Forbidden</a></h4><div id="rfc.section.15.5.4.p.1"><p>The 403 (Forbidden) status code indicates that the server understood the request but refuses to fulfill it. A server that wishes to make public why the request has been forbidden can describe that reason in the response content (if any).</p></div><div id="rfc.section.15.5.4.p.2"><p>If authentication credentials were provided in the request, the server considers them insufficient to grant access. The client <em class="bcp14">SHOULD NOT</em> automatically repeat the request with the same credentials. The client <em class="bcp14">MAY</em> repeat the request with new or different credentials. However, a request might be forbidden for reasons unrelated to the credentials.</p></div><div id="rfc.section.15.5.4.p.3"><p>An origin server that wishes to "hide" the current existence of a forbidden <a href="##target.resource" class="smpl">target resource</a> <em class="bcp14">MAY</em> instead respond with a status code of <a href="##status.404" class="smpl">404 (Not Found)</a>.</p></div></section><section id="status.404"><h4 id="rfc.section.15.5.5"><a href="##rfc.section.15.5.5">15.5.5.</a>&nbsp;<a href="##status.404">404 Not Found</a></h4><div id="rfc.section.15.5.5.p.1"><p>The 404 (Not Found) status code indicates that the origin server did not find a current representation for the <a href="##target.resource" class="smpl">target resource</a> or is not willing to disclose that one exists. A 404 status code does not indicate whether this lack of representation is temporary or permanent; the <a href="##status.410" class="smpl">410 (Gone)</a> status code is preferred over 404 if the origin server knows, presumably through some configurable means, that the condition is likely to be permanent.</p></div><div id="rfc.section.15.5.5.p.2"><p>A 404 response is heuristically cacheable; i.e., unless otherwise indicated by the method definition or explicit cache controls (see <a href="https://httpwg.org/specs/rfc9111.html#heuristic.freshness" title="Calculating Heuristic Freshness">Section 4.2.2</a> of <a href="##CACHING" id="rfc.xref.CACHING.36"><cite title="HTTP Caching">[CACHING]</cite></a>).</p></div></section><section id="status.405"><h4 id="rfc.section.15.5.6"><a href="##rfc.section.15.5.6">15.5.6.</a>&nbsp;<a href="##status.405">405 Method Not Allowed</a></h4><div id="rfc.section.15.5.6.p.1"><p>The 405 (Method Not Allowed) status code indicates that the method received in the request-line is known by the origin server but not supported by the <a href="##target.resource" class="smpl">target resource</a>. The origin server <em class="bcp14">MUST</em> generate an <a href="##field.allow" class="smpl">Allow</a> header field in a 405 response containing a list of the target resource's currently supported methods.</p></div><div id="rfc.section.15.5.6.p.2"><p>A 405 response is heuristically cacheable; i.e., unless otherwise indicated by the method definition or explicit cache controls (see <a href="https://httpwg.org/specs/rfc9111.html#heuristic.freshness" title="Calculating Heuristic Freshness">Section 4.2.2</a> of <a href="##CACHING" id="rfc.xref.CACHING.37"><cite title="HTTP Caching">[CACHING]</cite></a>).</p></div></section><section id="status.406"><h4 id="rfc.section.15.5.7"><a href="##rfc.section.15.5.7">15.5.7.</a>&nbsp;<a href="##status.406">406 Not Acceptable</a></h4><div id="rfc.section.15.5.7.p.1"><p>The 406 (Not Acceptable) status code indicates that the <a href="##target.resource" class="smpl">target resource</a> does not have a current representation that would be acceptable to the user agent, according to the <a href="##proactive.negotiation" class="smpl">proactive negotiation</a> header fields received in the request (<a href="##proactive.negotiation" title="Proactive Negotiation">Section 12.1</a>), and the server is unwilling to supply a default representation.</p></div><div id="rfc.section.15.5.7.p.2"><p>The server <em class="bcp14">SHOULD</em> generate content containing a list of available representation characteristics and corresponding resource identifiers from which the user or user agent can choose the one most appropriate. A user agent <em class="bcp14">MAY</em> automatically select the most appropriate choice from that list. However, this specification does not define any standard for such automatic selection, as described in <a href="##status.300" id="rfc.xref.status.300.1" title="300 Multiple Choices">Section 15.4.1</a>.</p></div></section><section id="status.407"><h4 id="rfc.section.15.5.8"><a href="##rfc.section.15.5.8">15.5.8.</a>&nbsp;<a href="##status.407">407 Proxy Authentication Required</a></h4><div id="rfc.section.15.5.8.p.1"><p>The 407 (Proxy Authentication Required) status code is similar to <a href="##status.401" class="smpl">401 (Unauthorized)</a>, but it indicates that the client needs to authenticate itself in order to use a proxy for this request. The proxy <em class="bcp14">MUST</em> send a <a href="##field.proxy-authenticate" class="smpl">Proxy-Authenticate</a> header field (<a href="##field.proxy-authenticate" id="rfc.xref.field.proxy-authenticate.1" title="Proxy-Authenticate">Section 11.7.1</a>) containing a challenge applicable to that proxy for the request. The client <em class="bcp14">MAY</em> repeat the request with a new or replaced <a href="##field.proxy-authorization" class="smpl">Proxy-Authorization</a> header field (<a href="##field.proxy-authorization" id="rfc.xref.field.proxy-authorization.2" title="Proxy-Authorization">Section 11.7.2</a>).</p></div></section><section id="status.408"><h4 id="rfc.section.15.5.9"><a href="##rfc.section.15.5.9">15.5.9.</a>&nbsp;<a href="##status.408">408 Request Timeout</a></h4><div id="rfc.section.15.5.9.p.1"><p>The 408 (Request Timeout) status code indicates that the server did not receive a complete request message within the time that it was prepared to wait.</p></div><div id="rfc.section.15.5.9.p.2"><p>If the client has an outstanding request in transit, it <em class="bcp14">MAY</em> repeat that request. If the current connection is not usable (e.g., as it would be in HTTP/1.1 because request delimitation is lost), a new connection will be used.</p></div></section><section id="status.409"><h4 id="rfc.section.15.5.10"><a href="##rfc.section.15.5.10">15.5.10.</a>&nbsp;<a href="##status.409">409 Conflict</a></h4><div id="rfc.section.15.5.10.p.1"><p>The 409 (Conflict) status code indicates that the request could not be completed due to a conflict with the current state of the target resource. This code is used in situations where the user might be able to resolve the conflict and resubmit the request. The server <em class="bcp14">SHOULD</em> generate content that includes enough information for a user to recognize the source of the conflict.</p></div><div id="rfc.section.15.5.10.p.2"><p>Conflicts are most likely to occur in response to a PUT request. For example, if versioning were being used and the representation being PUT included changes to a resource that conflict with those made by an earlier (third-party) request, the origin server might use a 409 response to indicate that it can't complete the request. In this case, the response representation would likely contain information useful for merging the differences based on the revision history.</p></div></section><section id="status.410"><h4 id="rfc.section.15.5.11"><a href="##rfc.section.15.5.11">15.5.11.</a>&nbsp;<a href="##status.410">410 Gone</a></h4><div id="rfc.section.15.5.11.p.1"><p>The 410 (Gone) status code indicates that access to the <a href="##target.resource" class="smpl">target resource</a> is no longer available at the origin server and that this condition is likely to be permanent. If the origin server does not know, or has no facility to determine, whether or not the condition is permanent, the status code <a href="##status.404" class="smpl">404 (Not Found)</a> ought to be used instead.</p></div><div id="rfc.section.15.5.11.p.2"><p>The 410 response is primarily intended to assist the task of web maintenance by notifying the recipient that the resource is intentionally unavailable and that the server owners desire that remote links to that resource be removed. Such an event is common for limited-time, promotional services and for resources belonging to individuals no longer associated with the origin server's site. It is not necessary to mark all permanently unavailable resources as "gone" or to keep the mark for any length of time — that is left to the discretion of the server owner.</p></div><div id="rfc.section.15.5.11.p.3"><p>A 410 response is heuristically cacheable; i.e., unless otherwise indicated by the method definition or explicit cache controls (see <a href="https://httpwg.org/specs/rfc9111.html#heuristic.freshness" title="Calculating Heuristic Freshness">Section 4.2.2</a> of <a href="##CACHING" id="rfc.xref.CACHING.38"><cite title="HTTP Caching">[CACHING]</cite></a>).</p></div></section><section id="status.411"><h4 id="rfc.section.15.5.12"><a href="##rfc.section.15.5.12">15.5.12.</a>&nbsp;<a href="##status.411">411 Length Required</a></h4><div id="rfc.section.15.5.12.p.1"><p>The 411 (Length Required) status code indicates that the server refuses to accept the request without a defined <a href="##field.content-length" class="smpl">Content-Length</a> (<a href="##field.content-length" id="rfc.xref.field.content-length.1" title="Content-Length">Section 8.6</a>). The client <em class="bcp14">MAY</em> repeat the request if it adds a valid Content-Length header field containing the length of the request content.</p></div></section><section id="status.412"><h4 id="rfc.section.15.5.13"><a href="##rfc.section.15.5.13">15.5.13.</a>&nbsp;<a href="##status.412">412 Precondition Failed</a></h4><div id="rfc.section.15.5.13.p.1"><p>The 412 (Precondition Failed) status code indicates that one or more conditions given in the request header fields evaluated to false when tested on the server (<a href="##conditional.requests" title="Conditional Requests">Section 13</a>). This response status code allows the client to place preconditions on the current resource state (its current representations and metadata) and, thus, prevent the request method from being applied if the target resource is in an unexpected state.</p></div></section><section id="status.413"><h4 id="rfc.section.15.5.14"><a href="##rfc.section.15.5.14">15.5.14.</a>&nbsp;<a href="##status.413">413 Content Too Large</a></h4><div id="rfc.section.15.5.14.p.1"><p>The 413 (Content Too Large) status code indicates that the server is refusing to process a request because the request content is larger than the server is willing or able to process. The server <em class="bcp14">MAY</em> terminate the request, if the protocol version in use allows it; otherwise, the server <em class="bcp14">MAY</em> close the connection.</p></div><div id="rfc.section.15.5.14.p.2"><p>If the condition is temporary, the server <em class="bcp14">SHOULD</em> generate a <a href="##field.retry-after" class="smpl">Retry-After</a> header field to indicate that it is temporary and after what time the client <em class="bcp14">MAY</em> try again.</p></div></section><section id="status.414"><h4 id="rfc.section.15.5.15"><a href="##rfc.section.15.5.15">15.5.15.</a>&nbsp;<a href="##status.414">414 URI Too Long</a></h4><div id="rfc.section.15.5.15.p.1"><p>The 414 (URI Too Long) status code indicates that the server is refusing to service the request because the target URI is longer than the server is willing to interpret. This rare condition is only likely to occur when a client has improperly converted a POST request to a GET request with long query information, when the client has descended into an infinite loop of redirection (e.g., a redirected URI prefix that points to a suffix of itself) or when the server is under attack by a client attempting to exploit potential security holes.</p></div><div id="rfc.section.15.5.15.p.2"><p>A 414 response is heuristically cacheable; i.e., unless otherwise indicated by the method definition or explicit cache controls (see <a href="https://httpwg.org/specs/rfc9111.html#heuristic.freshness" title="Calculating Heuristic Freshness">Section 4.2.2</a> of <a href="##CACHING" id="rfc.xref.CACHING.39"><cite title="HTTP Caching">[CACHING]</cite></a>).</p></div></section><section id="status.415"><h4 id="rfc.section.15.5.16"><a href="##rfc.section.15.5.16">15.5.16.</a>&nbsp;<a href="##status.415">415 Unsupported Media Type</a></h4><div id="rfc.section.15.5.16.p.1"><p>The 415 (Unsupported Media Type) status code indicates that the origin server is refusing to service the request because the content is in a format not supported by this method on the <a href="##target.resource" class="smpl">target resource</a>.</p></div><div id="rfc.section.15.5.16.p.2"><p>The format problem might be due to the request's indicated <a href="##field.content-type" class="smpl">Content-Type</a> or <a href="##field.content-encoding" class="smpl">Content-Encoding</a>, or as a result of inspecting the data directly.</p></div><div id="rfc.section.15.5.16.p.3"><p>If the problem was caused by an unsupported content coding, the <a href="##field.accept-encoding" class="smpl">Accept-Encoding</a> response header field (<a href="##field.accept-encoding" id="rfc.xref.field.accept-encoding.4" title="Accept-Encoding">Section 12.5.3</a>) ought to be used to indicate which (if any) content codings would have been accepted in the request.</p></div><div id="rfc.section.15.5.16.p.4"><p>On the other hand, if the cause was an unsupported media type, the <a href="##field.accept" class="smpl">Accept</a> response header field (<a href="##field.accept" id="rfc.xref.field.accept.4" title="Accept">Section 12.5.1</a>) can be used to indicate which media types would have been accepted in the request.</p></div></section><section id="status.416"><h4 id="rfc.section.15.5.17"><a href="##rfc.section.15.5.17">15.5.17.</a>&nbsp;<a href="##status.416">416 Range Not Satisfiable</a></h4><div id="rfc.section.15.5.17.p.1"><p>The 416 (Range Not Satisfiable) status code indicates that the set of ranges in the request's <a href="##field.range" class="smpl">Range</a> header field (<a href="##field.range" id="rfc.xref.field.range.3" title="Range">Section 14.2</a>) has been rejected either because none of the requested ranges are satisfiable or because the client has requested an excessive number of small or overlapping ranges (a potential denial of service attack).</p></div><div id="rfc.section.15.5.17.p.2"><p>Each range unit defines what is required for its own range sets to be satisfiable. For example, <a href="##byte.ranges" title="Byte Ranges">Section 14.1.2</a> defines what makes a bytes range set satisfiable.</p></div><div id="rfc.section.15.5.17.p.3"><p>A server that generates a 416 response to a byte-range request <em class="bcp14">SHOULD</em> generate a <a href="##field.content-range" class="smpl">Content-Range</a> header field specifying the current length of the selected representation (<a href="##field.content-range" id="rfc.xref.field.content-range.4" title="Content-Range">Section 14.4</a>).</p></div><div id="rfc.section.15.5.17.p.4" class="avoidbreakafter"><p>For example:</p></div><div id="rfc.section.15.5.17.p.5"><pre class="text">HTTP/1.1 416 Range Not Satisfiable
Date: Fri, 20 Jan 2012 15:41:54 GMT
Content-Range: bytes */47022
</pre></div><div id="rfc.section.15.5.17.p.6"><aside><div id="rfc.section.15.5.17.p.6.1"><p><b>Note:</b> Because servers are free to ignore <a href="##field.range" class="smpl">Range</a>, many implementations will respond with the entire selected representation in a <a href="##status.200" class="smpl">200 (OK)</a> response. That is partly because most clients are prepared to receive a <a href="##status.200" class="smpl">200 (OK)</a> to complete the task (albeit less efficiently) and partly because clients might not stop making an invalid range request until they have received a complete representation. Thus, clients cannot depend on receiving a <a href="##status.416" class="smpl">416 (Range Not Satisfiable)</a> response even when it is most appropriate.</p></div></aside></div></section><section id="status.417"><h4 id="rfc.section.15.5.18"><a href="##rfc.section.15.5.18">15.5.18.</a>&nbsp;<a href="##status.417">417 Expectation Failed</a></h4><div id="rfc.section.15.5.18.p.1"><p>The 417 (Expectation Failed) status code indicates that the expectation given in the request's <a href="##field.expect" class="smpl">Expect</a> header field (<a href="##field.expect" id="rfc.xref.field.expect.3" title="Expect">Section 10.1.1</a>) could not be met by at least one of the inbound servers.</p></div></section><section id="status.418"><h4 id="rfc.section.15.5.19"><a href="##rfc.section.15.5.19">15.5.19.</a>&nbsp;<a href="##status.418">418 (Unused)</a></h4><div id="rfc.section.15.5.19.p.1"><p><a href="##RFC2324" id="rfc.xref.RFC2324.1"><cite title="Hyper Text Coffee Pot Control Protocol (HTCPCP/1.0)">[RFC2324]</cite></a> was an April 1 RFC that lampooned the various ways HTTP was abused; one such abuse was the definition of an application-specific 418 status code, which has been deployed as a joke often enough for the code to be unusable for any future use.</p></div><div id="rfc.section.15.5.19.p.2"><p>Therefore, the 418 status code is reserved in the IANA HTTP Status Code Registry. This indicates that the status code cannot be assigned to other applications currently. If future circumstances require its use (e.g., exhaustion of 4NN status codes), it can be re-assigned to another use.</p></div></section><section id="status.421"><h4 id="rfc.section.15.5.20"><a href="##rfc.section.15.5.20">15.5.20.</a>&nbsp;<a href="##status.421">421 Misdirected Request</a></h4><div id="rfc.section.15.5.20.p.1"><p>The 421 (Misdirected Request) status code indicates that the request was directed at a server that is unable or unwilling to produce an authoritative response for the target URI. An origin server (or gateway acting on behalf of the origin server) sends 421 to reject a target URI that does not match an <a href="##origin" class="smpl">origin</a> for which the server has been configured (<a href="##origin" title="URI Origin">Section 4.3.1</a>) or does not match the connection context over which the request was received (<a href="##routing.reject" title="Rejecting Misdirected Requests">Section 7.4</a>).</p></div><div id="rfc.section.15.5.20.p.2"><p>A client that receives a 421 (Misdirected Request) response <em class="bcp14">MAY</em> retry the request, whether or not the request method is idempotent, over a different connection, such as a fresh connection specific to the target resource's origin, or via an alternative service <a href="##ALTSVC" id="rfc.xref.ALTSVC.2"><cite title="HTTP Alternative Services">[ALTSVC]</cite></a>.</p></div><div id="rfc.section.15.5.20.p.3"><p>A proxy <em class="bcp14">MUST NOT</em> generate a 421 response.</p></div></section><section id="status.422"><h4 id="rfc.section.15.5.21"><a href="##rfc.section.15.5.21">15.5.21.</a>&nbsp;<a href="##status.422">422 Unprocessable Content</a></h4><div id="rfc.section.15.5.21.p.1"><p>The 422 (Unprocessable Content) status code indicates that the server understands the content type of the request content (hence a <a href="##status.415" class="smpl">415 (Unsupported Media Type)</a> status code is inappropriate), and the syntax of the request content is correct, but it was unable to process the contained instructions. For example, this status code can be sent if an XML request content contains well-formed (i.e., syntactically correct), but semantically erroneous XML instructions.</p></div></section><section id="status.426"><h4 id="rfc.section.15.5.22"><a href="##rfc.section.15.5.22">15.5.22.</a>&nbsp;<a href="##status.426">426 Upgrade Required</a></h4><div id="rfc.section.15.5.22.p.1"><p>The 426 (Upgrade Required) status code indicates that the server refuses to perform the request using the current protocol but might be willing to do so after the client upgrades to a different protocol. The server <em class="bcp14">MUST</em> send an <a href="##field.upgrade" class="smpl">Upgrade</a> header field in a 426 response to indicate the required protocol(s) (<a href="##field.upgrade" id="rfc.xref.field.upgrade.5" title="Upgrade">Section 7.8</a>).</p></div><div id="rfc.section.15.5.22.p.2" class="avoidbreakafter"><p>Example:</p></div><div id="rfc.section.15.5.22.p.3"><pre class="text">HTTP/1.1 426 Upgrade Required
Upgrade: HTTP/3.0
Connection: Upgrade
Content-Length: 53
Content-Type: text/plain

<span id="s426body">This service requires use of the HTTP/3.0 protocol.
</span></pre></div></section></section><section id="status.5xx"><h3 id="rfc.section.15.6"><a href="##rfc.section.15.6">15.6.</a>&nbsp;<a href="##status.5xx">Server Error 5xx</a></h3><div id="rfc.section.15.6.p.1"><p>The 5xx (Server Error) class of status code indicates that the server is aware that it has erred or is incapable of performing the requested method. Except when responding to a HEAD request, the server <em class="bcp14">SHOULD</em> send a representation containing an explanation of the error situation, and whether it is a temporary or permanent condition. A user agent <em class="bcp14">SHOULD</em> display any included representation to the user. These status codes are applicable to any request method.</p></div><section id="status.500"><h4 id="rfc.section.15.6.1"><a href="##rfc.section.15.6.1">15.6.1.</a>&nbsp;<a href="##status.500">500 Internal Server Error</a></h4><div id="rfc.section.15.6.1.p.1"><p>The 500 (Internal Server Error) status code indicates that the server encountered an unexpected condition that prevented it from fulfilling the request.</p></div></section><section id="status.501"><h4 id="rfc.section.15.6.2"><a href="##rfc.section.15.6.2">15.6.2.</a>&nbsp;<a href="##status.501">501 Not Implemented</a></h4><div id="rfc.section.15.6.2.p.1"><p>The 501 (Not Implemented) status code indicates that the server does not support the functionality required to fulfill the request. This is the appropriate response when the server does not recognize the request method and is not capable of supporting it for any resource.</p></div><div id="rfc.section.15.6.2.p.2"><p>A 501 response is heuristically cacheable; i.e., unless otherwise indicated by the method definition or explicit cache controls (see <a href="https://httpwg.org/specs/rfc9111.html#heuristic.freshness" title="Calculating Heuristic Freshness">Section 4.2.2</a> of <a href="##CACHING" id="rfc.xref.CACHING.40"><cite title="HTTP Caching">[CACHING]</cite></a>).</p></div></section><section id="status.502"><h4 id="rfc.section.15.6.3"><a href="##rfc.section.15.6.3">15.6.3.</a>&nbsp;<a href="##status.502">502 Bad Gateway</a></h4><div id="rfc.section.15.6.3.p.1"><p>The 502 (Bad Gateway) status code indicates that the server, while acting as a gateway or proxy, received an invalid response from an inbound server it accessed while attempting to fulfill the request.</p></div></section><section id="status.503"><h4 id="rfc.section.15.6.4"><a href="##rfc.section.15.6.4">15.6.4.</a>&nbsp;<a href="##status.503">503 Service Unavailable</a></h4><div id="rfc.section.15.6.4.p.1"><p>The 503 (Service Unavailable) status code indicates that the server is currently unable to handle the request due to a temporary overload or scheduled maintenance, which will likely be alleviated after some delay. The server <em class="bcp14">MAY</em> send a <a href="##field.retry-after" class="smpl">Retry-After</a> header field (<a href="##field.retry-after" id="rfc.xref.field.retry-after.1" title="Retry-After">Section 10.2.3</a>) to suggest an appropriate amount of time for the client to wait before retrying the request.</p></div><div id="rfc.section.15.6.4.p.2"><aside><div id="rfc.section.15.6.4.p.2.1"><p><b>Note:</b> The existence of the 503 status code does not imply that a server has to use it when becoming overloaded. Some servers might simply refuse the connection.</p></div></aside></div></section><section id="status.504"><h4 id="rfc.section.15.6.5"><a href="##rfc.section.15.6.5">15.6.5.</a>&nbsp;<a href="##status.504">504 Gateway Timeout</a></h4><div id="rfc.section.15.6.5.p.1"><p>The 504 (Gateway Timeout) status code indicates that the server, while acting as a gateway or proxy, did not receive a timely response from an upstream server it needed to access in order to complete the request.</p></div></section><section id="status.505"><h4 id="rfc.section.15.6.6"><a href="##rfc.section.15.6.6">15.6.6.</a>&nbsp;<a href="##status.505">505 HTTP Version Not Supported</a></h4><div id="rfc.section.15.6.6.p.1"><p>The 505 (HTTP Version Not Supported) status code indicates that the server does not support, or refuses to support, the major version of HTTP that was used in the request message. The server is indicating that it is unable or unwilling to complete the request using the same major version as the client, as described in <a href="##protocol.version" title="Protocol Version">Section 2.5</a>, other than with this error message. The server <em class="bcp14">SHOULD</em> generate a representation for the 505 response that describes why that version is not supported and what other protocols are supported by that server.</p></div></section></section></section><section id="extending"><h2 id="rfc.section.16"><a href="##rfc.section.16">16.</a>&nbsp;<a href="##extending">Extending HTTP</a></h2><div id="rfc.section.16.p.1"><p>HTTP defines a number of generic extension points that can be used to introduce capabilities to the protocol without introducing a new version, including methods, status codes, field names, and further extensibility points within defined fields, such as authentication schemes and cache directives (see Cache-Control extensions in <a href="https://httpwg.org/specs/rfc9111.html#cache.control.extensions" title="Extension Directives">Section 5.2.3</a> of <a href="##CACHING" id="rfc.xref.CACHING.41"><cite title="HTTP Caching">[CACHING]</cite></a>). Because the semantics of HTTP are not versioned, these extension points are persistent; the version of the protocol in use does not affect their semantics.</p></div><div id="rfc.section.16.p.2"><p>Version-independent extensions are discouraged from depending on or interacting with the specific version of the protocol in use. When this is unavoidable, careful consideration needs to be given to how the extension can interoperate across versions.</p></div><div id="rfc.section.16.p.3"><p>Additionally, specific versions of HTTP might have their own extensibility points, such as transfer codings in HTTP/1.1 (<a href="https://httpwg.org/specs/rfc9112.html#field.transfer-encoding" title="Transfer-Encoding">Section 6.1</a> of <a href="##HTTP11" id="rfc.xref.HTTP11.24"><cite title="HTTP/1.1">[HTTP/1.1]</cite></a>) and HTTP/2 SETTINGS or frame types (<a href="##HTTP2" id="rfc.xref.HTTP2.5"><cite title="HTTP/2">[HTTP/2]</cite></a>). These extension points are specific to the version of the protocol they occur within.</p></div><div id="rfc.section.16.p.4"><p>Version-specific extensions cannot override or modify the semantics of a version-independent mechanism or extension point (like a method or header field) without explicitly being allowed by that protocol element. For example, the CONNECT method (<a href="##CONNECT" id="rfc.xref.CONNECT.6" title="CONNECT">Section 9.3.6</a>) allows this.</p></div><div id="rfc.section.16.p.5"><p>These guidelines assure that the protocol operates correctly and predictably, even when parts of the path implement different versions of HTTP.</p></div><section id="method.extensibility"><h3 id="rfc.section.16.1"><a href="##rfc.section.16.1">16.1.</a>&nbsp;<a href="##method.extensibility">Method Extensibility</a></h3><section id="method.registry"><h4 id="rfc.section.16.1.1"><a href="##rfc.section.16.1.1">16.1.1.</a>&nbsp;<a href="##method.registry">Method Registry</a></h4><div id="rfc.section.16.1.1.p.1"><p>The "Hypertext Transfer Protocol (HTTP) Method Registry", maintained by IANA at <a href="https://www.iana.org/assignments/http-methods">https://www.iana.org/assignments/http-methods</a>, registers <a href="##method.overview" class="smpl">method</a> names.</p></div><div id="rfc.section.16.1.1.p.2" class="avoidbreakafter"><p>HTTP method registrations <em class="bcp14">MUST</em> include the following fields:</p></div><div id="rfc.section.16.1.1.p.3"><ul><li>Method Name (see <a href="##methods" title="Methods">Section 9</a>)</li><li>Safe ("yes" or "no", see <a href="##safe.methods" title="Safe Methods">Section 9.2.1</a>)</li><li>Idempotent ("yes" or "no", see <a href="##idempotent.methods" title="Idempotent Methods">Section 9.2.2</a>)</li><li>Pointer to specification text</li></ul></div><div id="rfc.section.16.1.1.p.4"><p>Values to be added to this namespace require IETF Review (see <a href="##RFC8126" id="rfc.xref.RFC8126.1"><cite title="Guidelines for Writing an IANA Considerations Section in RFCs">[RFC8126]</cite></a>, <a href="https://www.rfc-editor.org/rfc/rfc8126.html#section-4.8">Section 4.8</a>).</p></div></section><section id="considerations.for.new.methods"><h4 id="rfc.section.16.1.2"><a href="##rfc.section.16.1.2">16.1.2.</a>&nbsp;<a href="##considerations.for.new.methods">Considerations for New Methods</a></h4><div id="rfc.section.16.1.2.p.1"><p>Standardized methods are generic; that is, they are potentially applicable to any resource, not just one particular media type, kind of resource, or application. As such, it is preferred that new methods be registered in a document that isn't specific to a single application or data format, since orthogonal technologies deserve orthogonal specification.</p></div><div id="rfc.section.16.1.2.p.2"><p>Since message parsing (<a href="##message.abstraction" title="Message Abstraction">Section 6</a>) needs to be independent of method semantics (aside from responses to HEAD), definitions of new methods cannot change the parsing algorithm or prohibit the presence of content on either the request or the response message. Definitions of new methods can specify that only a zero-length content is allowed by requiring a Content-Length header field with a value of "0".</p></div><div id="rfc.section.16.1.2.p.3"><p>Likewise, new methods cannot use the special host:port and asterisk forms of request target that are allowed for <a href="##CONNECT" class="smpl" id="rfc.extref.c.100">CONNECT</a> and <a href="##OPTIONS" class="smpl" id="rfc.extref.o.27">OPTIONS</a>, respectively (<a href="##target.resource" title="Determining the Target Resource">Section 7.1</a>). A full URI in absolute form is needed for the target URI, which means either the request target needs to be sent in absolute form or the target URI will be reconstructed from the request context in the same way it is for other methods.</p></div><div id="rfc.section.16.1.2.p.4"><p>A new method definition needs to indicate whether it is safe (<a href="##safe.methods" title="Safe Methods">Section 9.2.1</a>), idempotent (<a href="##idempotent.methods" title="Idempotent Methods">Section 9.2.2</a>), cacheable (<a href="##cacheable.methods" title="Methods and Caching">Section 9.2.3</a>), what semantics are to be associated with the request content (if any), and what refinements the method makes to header field or status code semantics. If the new method is cacheable, its definition ought to describe how, and under what conditions, a cache can store a response and use it to satisfy a subsequent request. The new method ought to describe whether it can be made conditional (<a href="##preconditions" title="Preconditions">Section 13.1</a>) and, if so, how a server responds when the condition is false. Likewise, if the new method might have some use for partial response semantics (<a href="##field.range" id="rfc.xref.field.range.4" title="Range">Section 14.2</a>), it ought to document this, too.</p></div><div id="rfc.section.16.1.2.p.5"><aside><div id="rfc.section.16.1.2.p.5.1"><p><b>Note:</b> Avoid defining a method name that starts with "M-", since that prefix might be misinterpreted as having the semantics assigned to it by <a href="##RFC2774" id="rfc.xref.RFC2774.1"><cite title="An HTTP Extension Framework">[RFC2774]</cite></a>.</p></div></aside></div></section></section><section id="status.code.extensibility"><h3 id="rfc.section.16.2"><a href="##rfc.section.16.2">16.2.</a>&nbsp;<a href="##status.code.extensibility">Status Code Extensibility</a></h3><section id="status.code.registry"><h4 id="rfc.section.16.2.1"><a href="##rfc.section.16.2.1">16.2.1.</a>&nbsp;<a href="##status.code.registry">Status Code Registry</a></h4><div id="rfc.section.16.2.1.p.1"><p>The "Hypertext Transfer Protocol (HTTP) Status Code Registry", maintained by IANA at <a href="https://www.iana.org/assignments/http-status-codes">https://www.iana.org/assignments/http-status-codes</a>, registers <a href="https://httpwg.org/specs/rfc9112.html#status.line" class="smpl">status code</a> numbers.</p></div><div id="rfc.section.16.2.1.p.2" class="avoidbreakafter"><p>A registration <em class="bcp14">MUST</em> include the following fields:</p></div><div id="rfc.section.16.2.1.p.3"><ul><li>Status Code (3 digits)</li><li>Short Description</li><li>Pointer to specification text</li></ul></div><div id="rfc.section.16.2.1.p.4"><p>Values to be added to the HTTP status code namespace require IETF Review (see <a href="##RFC8126" id="rfc.xref.RFC8126.2"><cite title="Guidelines for Writing an IANA Considerations Section in RFCs">[RFC8126]</cite></a>, <a href="https://www.rfc-editor.org/rfc/rfc8126.html#section-4.8">Section 4.8</a>).</p></div></section><section id="considerations.for.new.status.codes"><h4 id="rfc.section.16.2.2"><a href="##rfc.section.16.2.2">16.2.2.</a>&nbsp;<a href="##considerations.for.new.status.codes">Considerations for New Status Codes</a></h4><div id="rfc.section.16.2.2.p.1"><p>When it is necessary to express semantics for a response that are not defined by current status codes, a new status code can be registered. Status codes are generic; they are potentially applicable to any resource, not just one particular media type, kind of resource, or application of HTTP. As such, it is preferred that new status codes be registered in a document that isn't specific to a single application.</p></div><div id="rfc.section.16.2.2.p.2"><p>New status codes are required to fall under one of the categories defined in <a href="##status.codes" title="Status Codes">Section 15</a>. To allow existing parsers to process the response message, new status codes cannot disallow content, although they can mandate a zero-length content.</p></div><div id="rfc.section.16.2.2.p.3"><p>Proposals for new status codes that are not yet widely deployed ought to avoid allocating a specific number for the code until there is clear consensus that it will be registered; instead, early drafts can use a notation such as "4NN", or "3N0" .. "3N9", to indicate the class of the proposed status code(s) without consuming a number prematurely.</p></div><div id="rfc.section.16.2.2.p.4"><p>The definition of a new status code ought to explain the request conditions that would cause a response containing that status code (e.g., combinations of request header fields and/or method(s)) along with any dependencies on response header fields (e.g., what fields are required, what fields can modify the semantics, and what field semantics are further refined when used with the new status code).</p></div><div id="rfc.section.16.2.2.p.5"><p>By default, a status code applies only to the request corresponding to the response it occurs within. If a status code applies to a larger scope of applicability — for example, all requests to the resource in question or all requests to a server — this must be explicitly specified. When doing so, it should be noted that not all clients can be expected to consistently apply a larger scope because they might not understand the new status code.</p></div><div id="rfc.section.16.2.2.p.6"><p>The definition of a new final status code ought to specify whether or not it is heuristically cacheable. Note that any response with a final status code can be cached if the response has explicit freshness information. A status code defined as heuristically cacheable is allowed to be cached without explicit freshness information. Likewise, the definition of a status code can place constraints upon cache behavior if the must-understand cache directive is used. See <a href="##CACHING" id="rfc.xref.CACHING.42"><cite title="HTTP Caching">[CACHING]</cite></a> for more information.</p></div><div id="rfc.section.16.2.2.p.7"><p>Finally, the definition of a new status code ought to indicate whether the content has any implied association with an identified resource (<a href="##identifying.content" title="Identifying Content">Section 6.4.2</a>).</p></div></section></section><section id="fields.extensibility"><h3 id="rfc.section.16.3"><a href="##rfc.section.16.3">16.3.</a>&nbsp;<a href="##fields.extensibility">Field Extensibility</a></h3><div id="rfc.section.16.3.p.1"><p>HTTP's most widely used extensibility point is the definition of new header and trailer fields.</p></div><div id="rfc.section.16.3.p.2"><p>New fields can be defined such that, when they are understood by a recipient, they override or enhance the interpretation of previously defined fields, define preconditions on request evaluation, or refine the meaning of responses.</p></div><div id="rfc.section.16.3.p.3"><p>However, defining a field doesn't guarantee its deployment or recognition by recipients. Most fields are designed with the expectation that a recipient can safely ignore (but forward downstream) any field not recognized. In other cases, the sender's ability to understand a given field might be indicated by its prior communication, perhaps in the protocol version or fields that it sent in prior messages, or its use of a specific media type. Likewise, direct inspection of support might be possible through an OPTIONS request or by interacting with a defined well-known URI <a href="##RFC8615" id="rfc.xref.RFC8615.1"><cite title="Well-Known Uniform Resource Identifiers (URIs)">[RFC8615]</cite></a> if such inspection is defined along with the field being introduced.</p></div><section id="fields.registry"><h4 id="rfc.section.16.3.1"><a href="##rfc.section.16.3.1">16.3.1.</a>&nbsp;<a href="##fields.registry">Field Name Registry</a></h4><div id="rfc.section.16.3.1.p.1"><p>The "Hypertext Transfer Protocol (HTTP) Field Name Registry" defines the namespace for HTTP field names.</p></div><div id="rfc.section.16.3.1.p.2"><p>Any party can request registration of an HTTP field. See <a href="##considerations.for.new.fields" title="Considerations for New Fields">Section 16.3.2</a> for considerations to take into account when creating a new HTTP field.</p></div><div id="rfc.section.16.3.1.p.3"><p>The "Hypertext Transfer Protocol (HTTP) Field Name Registry" is located at <a href="https://www.iana.org/assignments/http-fields/">https://www.iana.org/assignments/http-fields/</a>. Registration requests can be made by following the instructions located there or by sending an email to the "ietf-http-wg@w3.org" mailing list.</p></div><div id="rfc.section.16.3.1.p.4"><p>Field names are registered on the advice of a designated expert (appointed by the IESG or their delegate). Fields with the status 'permanent' are Specification Required (<a href="##RFC8126" id="rfc.xref.RFC8126.3"><cite title="Guidelines for Writing an IANA Considerations Section in RFCs">[RFC8126]</cite></a>, <a href="https://www.rfc-editor.org/rfc/rfc8126.html#section-4.6">Section 4.6</a>).</p></div><div id="rfc.section.16.3.1.p.5" class="avoidbreakafter"><p>Registration requests consist of the following information:</p></div><div id="rfc.section.16.3.1.p.6"><dl class="nohang"><dt>Field name:</dt><dd>The requested field name. It <em class="bcp14">MUST</em> conform to the field-name syntax defined in <a href="##fields.names" title="Field Names">Section 5.1</a>, and it <em class="bcp14">SHOULD</em> be restricted to just letters, digits, and hyphen ('-') characters, with the first character being a letter.</dd><dt>Status:</dt><dd>"permanent", "provisional", "deprecated", or "obsoleted".</dd><dt>Specification document(s):</dt><dd>Reference to the document that specifies the field, preferably including a URI that can be used to retrieve a copy of the document. Optional but encouraged for provisional registrations. An indication of the relevant section(s) can also be included, but is not required.</dd></dl></div><div id="rfc.section.16.3.1.p.7" class="avoidbreakafter"><p>And optionally:</p></div><div id="rfc.section.16.3.1.p.8"><dl><dt>Comments:</dt><dd>Additional information, such as about reserved entries.</dd></dl></div><div id="rfc.section.16.3.1.p.9"><p>The expert(s) can define additional fields to be collected in the registry, in consultation with the community.</p></div><div id="rfc.section.16.3.1.p.10"><p>Standards-defined names have a status of "permanent". Other names can also be registered as permanent if the expert(s) finds that they are in use, in consultation with the community. Other names should be registered as "provisional".</p></div><div id="rfc.section.16.3.1.p.11"><p>Provisional entries can be removed by the expert(s) if — in consultation with the community — the expert(s) find that they are not in use. The expert(s) can change a provisional entry's status to permanent at any time.</p></div><div id="rfc.section.16.3.1.p.12"><p>Note that names can be registered by third parties (including the expert(s)) if the expert(s) determines that an unregistered name is widely deployed and not likely to be registered in a timely manner otherwise.</p></div></section><section id="considerations.for.new.fields"><h4 id="rfc.section.16.3.2"><a href="##rfc.section.16.3.2">16.3.2.</a>&nbsp;<a href="##considerations.for.new.fields">Considerations for New Fields</a></h4><div id="rfc.section.16.3.2.p.1"><p>HTTP header and trailer fields are a widely used extension point for the protocol. While they can be used in an ad hoc fashion, fields that are intended for wider use need to be carefully documented to ensure interoperability.</p></div><div id="rfc.section.16.3.2.p.2" class="avoidbreakafter"><p>In particular, authors of specifications defining new fields are advised to consider and, where appropriate, document the following aspects:</p></div><div id="rfc.section.16.3.2.p.3"><ul><li>Under what conditions the field can be used; e.g., only in responses or requests, in all messages, only on responses to a particular request method, etc.</li><li>Whether the field semantics are further refined by their context, such as their use with certain request methods or status codes.</li><li>The scope of applicability for the information conveyed. By default, fields apply only to the message they are associated with, but some response fields are designed to apply to all representations of a resource, the resource itself, or an even broader scope. Specifications that expand the scope of a response field will need to carefully consider issues such as content negotiation, the time period of applicability, and (in some cases) multi-tenant server deployments.</li><li>Under what conditions intermediaries are allowed to insert, delete, or modify the field's value.</li><li>If the field is allowable in trailers; by default, it will not be (see <a href="##trailers.limitations" title="Limitations on Use of Trailers">Section 6.5.1</a>).</li><li>Whether it is appropriate or even required to list the field name in the <a href="##field.connection" class="smpl">Connection</a> header field (i.e., if the field is to be hop-by-hop; see <a href="##field.connection" id="rfc.xref.field.connection.6" title="Connection">Section 7.6.1</a>).</li><li>Whether the field introduces any additional security considerations, such as disclosure of privacy-related data.</li></ul></div><div id="rfc.section.16.3.2.p.4" class="avoidbreakafter"><p>Request header fields have additional considerations that need to be documented if the default behavior is not appropriate:</p></div><div id="rfc.section.16.3.2.p.5"><ul><li>If it is appropriate to list the field name in a <a href="##field.vary" class="smpl">Vary</a> response header field (e.g., when the request header field is used by an origin server's content selection algorithm; see <a href="##field.vary" id="rfc.xref.field.vary.2" title="Vary">Section 12.5.5</a>).</li><li>If the field is intended to be stored when received in a PUT request (see <a href="##PUT" id="rfc.xref.PUT.6" title="PUT">Section 9.3.4</a>).</li><li>If the field ought to be removed when automatically redirecting a request due to security concerns (see <a href="##status.3xx" id="rfc.xref.status.3xx.2" title="Redirection 3xx">Section 15.4</a>).</li></ul></div><section id="considerations.for.new.field.names"><h5 id="rfc.section.16.3.2.1"><a href="##rfc.section.16.3.2.1">16.3.2.1.</a>&nbsp;<a href="##considerations.for.new.field.names">Considerations for New Field Names</a></h5><div id="rfc.section.16.3.2.1.p.1"><p>Authors of specifications defining new fields are advised to choose a short but descriptive field name. Short names avoid needless data transmission; descriptive names avoid confusion and "squatting" on names that might have broader uses.</p></div><div id="rfc.section.16.3.2.1.p.2"><p>To that end, limited-use fields (such as a header confined to a single application or use case) are encouraged to use a name that includes that use (or an abbreviation) as a prefix; for example, if the Foo Application needs a Description field, it might use "Foo-Desc"; "Description" is too generic, and "Foo-Description" is needlessly long.</p></div><div id="rfc.section.16.3.2.1.p.3"><p>While the field-name syntax is defined to allow any token character, in practice some implementations place limits on the characters they accept in field-names. To be interoperable, new field names <em class="bcp14">SHOULD</em> constrain themselves to alphanumeric characters, "-", and ".", and <em class="bcp14">SHOULD</em> begin with a letter. For example, the underscore ("_") character can be problematic when passed through non-HTTP gateway interfaces (see <a href="##underscore.in.fields" title="Application Handling of Field Names">Section 17.10</a>).</p></div><div id="rfc.section.16.3.2.1.p.4"><p>Field names ought not be prefixed with "X-"; see <a href="##BCP178" id="rfc.xref.BCP178.1">[BCP178]</a> for further information.</p></div><div id="rfc.section.16.3.2.1.p.5"><p>Other prefixes are sometimes used in HTTP field names; for example, "Accept-" is used in many content negotiation headers, and "Content-" is used as explained in <a href="##content" title="Content">Section 6.4</a>. These prefixes are only an aid to recognizing the purpose of a field and do not trigger automatic processing.</p></div></section><section id="considerations.for.new.field.values"><h5 id="rfc.section.16.3.2.2"><a href="##rfc.section.16.3.2.2">16.3.2.2.</a>&nbsp;<a href="##considerations.for.new.field.values">Considerations for New Field Values</a></h5><div id="rfc.section.16.3.2.2.p.1"><p>A major task in the definition of a new HTTP field is the specification of the field value syntax: what senders should generate, and how recipients should infer semantics from what is received.</p></div><div id="rfc.section.16.3.2.2.p.2"><p>Authors are encouraged (but not required) to use either the ABNF rules in this specification or those in <a href="##RFC8941" id="rfc.xref.RFC8941.1"><cite title="Structured Field Values for HTTP">[RFC8941]</cite></a> to define the syntax of new field values.</p></div><div id="rfc.section.16.3.2.2.p.3"><p>Authors are advised to carefully consider how the combination of multiple field lines will impact them (see <a href="##fields.order" title="Field Order">Section 5.3</a>). Because senders might erroneously send multiple values, and both intermediaries and HTTP libraries can perform combination automatically, this applies to all field values — even when only a single value is anticipated.</p></div><div id="rfc.section.16.3.2.2.p.4"><p>Therefore, authors are advised to delimit or encode values that contain commas (e.g., with the <a href="##rule.quoted-string" class="smpl">quoted-string</a> rule of <a href="##quoted.strings" title="Quoted Strings">Section 5.6.4</a>, the String data type of <a href="##RFC8941" id="rfc.xref.RFC8941.2"><cite title="Structured Field Values for HTTP">[RFC8941]</cite></a>, or a field-specific encoding). This ensures that commas within field data are not confused with the commas that delimit a list value.</p></div><div id="rfc.section.16.3.2.2.p.5"><p>For example, the <a href="##field.content-type" class="smpl">Content-Type</a> field value only allows commas inside quoted strings, which can be reliably parsed even when multiple values are present. The <a href="##field.location" class="smpl">Location</a> field value provides a counter-example that should not be emulated: because URIs can include commas, it is not possible to reliably distinguish between a single value that includes a comma from two values.</p></div><div id="rfc.section.16.3.2.2.p.6"><p>Authors of fields with a singleton value (see <a href="##fields.values" title="Field Values">Section 5.5</a>) are additionally advised to document how to treat messages where the multiple members are present (a sensible default would be to ignore the field, but this might not always be the right choice).</p></div></section></section></section><section id="auth.scheme.extensibility"><h3 id="rfc.section.16.4"><a href="##rfc.section.16.4">16.4.</a>&nbsp;<a href="##auth.scheme.extensibility">Authentication Scheme Extensibility</a></h3><section id="auth.scheme.registry"><h4 id="rfc.section.16.4.1"><a href="##rfc.section.16.4.1">16.4.1.</a>&nbsp;<a href="##auth.scheme.registry">Authentication Scheme Registry</a></h4><div id="rfc.section.16.4.1.p.1"><p>The "Hypertext Transfer Protocol (HTTP) Authentication Scheme Registry" defines the namespace for the authentication schemes in challenges and credentials. It is maintained at <a href="https://www.iana.org/assignments/http-authschemes">https://www.iana.org/assignments/http-authschemes</a>.</p></div><div id="rfc.section.16.4.1.p.2" class="avoidbreakafter"><p>Registrations <em class="bcp14">MUST</em> include the following fields:</p></div><div id="rfc.section.16.4.1.p.3"><ul><li>Authentication Scheme Name</li><li>Pointer to specification text</li><li>Notes (optional)</li></ul></div><div id="rfc.section.16.4.1.p.4"><p>Values to be added to this namespace require IETF Review (see <a href="##RFC8126" id="rfc.xref.RFC8126.4"><cite title="Guidelines for Writing an IANA Considerations Section in RFCs">[RFC8126]</cite></a>, <a href="https://www.rfc-editor.org/rfc/rfc8126.html#section-4.8">Section 4.8</a>).</p></div></section><section id="considerations.for.new.auth.schemes"><h4 id="rfc.section.16.4.2"><a href="##rfc.section.16.4.2">16.4.2.</a>&nbsp;<a href="##considerations.for.new.auth.schemes">Considerations for New Authentication Schemes</a></h4><div id="rfc.section.16.4.2.p.1" class="avoidbreakafter"><p>There are certain aspects of the HTTP Authentication framework that put constraints on how new authentication schemes can work:</p></div><div id="rfc.section.16.4.2.p.2"><ul><li><div><p>HTTP authentication is presumed to be stateless: all of the information necessary to authenticate a request <em class="bcp14">MUST</em> be provided in the request, rather than be dependent on the server remembering prior requests. Authentication based on, or bound to, the underlying connection is outside the scope of this specification and inherently flawed unless steps are taken to ensure that the connection cannot be used by any party other than the authenticated user (see <a href="##connections" title="Connections, Clients, and Servers">Section 3.3</a>).</p></div> </li><li><div><p>The authentication parameter "realm" is reserved for defining protection spaces as described in <a href="##protection.space" title="Establishing a Protection Space (Realm)">Section 11.5</a>. New schemes <em class="bcp14">MUST NOT</em> use it in a way incompatible with that definition.</p></div> </li><li><div><p>The "token68" notation was introduced for compatibility with existing authentication schemes and can only be used once per challenge or credential. Thus, new schemes ought to use the auth-param syntax instead, because otherwise future extensions will be impossible.</p></div> </li><li><div><p>The parsing of challenges and credentials is defined by this specification and cannot be modified by new authentication schemes. When the auth-param syntax is used, all parameters ought to support both token and quoted-string syntax, and syntactical constraints ought to be defined on the field value after parsing (i.e., quoted-string processing). This is necessary so that recipients can use a generic parser that applies to all authentication schemes.</p></div> <div><p><b>Note:</b> The fact that the value syntax for the "realm" parameter is restricted to quoted-string was a bad design choice not to be repeated for new parameters.</p></div> </li><li><div><p>Definitions of new schemes ought to define the treatment of unknown extension parameters. In general, a "must-ignore" rule is preferable to a "must-understand" rule, because otherwise it will be hard to introduce new parameters in the presence of legacy recipients. Furthermore, it's good to describe the policy for defining new parameters (such as "update the specification" or "use this registry").</p></div> </li><li><div><p>Authentication schemes need to document whether they are usable in origin-server authentication (i.e., using <a href="##field.www-authenticate" class="smpl">WWW-Authenticate</a>), and/or proxy authentication (i.e., using <a href="##field.proxy-authenticate" class="smpl">Proxy-Authenticate</a>).</p></div> </li><li><div><p>The credentials carried in an <a href="##field.authorization" class="smpl">Authorization</a> header field are specific to the user agent and, therefore, have the same effect on HTTP caches as the "private" cache response directive (<a href="https://httpwg.org/specs/rfc9111.html#cache-response-directive.private" title="private">Section 5.2.2.7</a> of <a href="##CACHING" id="rfc.xref.CACHING.43"><cite title="HTTP Caching">[CACHING]</cite></a>), within the scope of the request in which they appear.</p></div> <div><p>Therefore, new authentication schemes that choose not to carry credentials in the <a href="##field.authorization" class="smpl">Authorization</a> header field (e.g., using a newly defined header field) will need to explicitly disallow caching, by mandating the use of cache response directives (e.g., "private").</p></div> </li><li><div><p>Schemes using <a href="##field.authentication-info" class="smpl">Authentication-Info</a>, <a href="##field.proxy-authentication-info" class="smpl">Proxy-Authentication-Info</a>, or any other authentication related response header field need to consider and document the related security considerations (see <a href="##security.auth.add.resp" title="Additional Response Fields">Section 17.16.4</a>).</p></div> </li></ul></div></section></section><section id="range.unit.extensibility"><h3 id="rfc.section.16.5"><a href="##rfc.section.16.5">16.5.</a>&nbsp;<a href="##range.unit.extensibility">Range Unit Extensibility</a></h3><section id="range.unit.registry"><h4 id="rfc.section.16.5.1"><a href="##rfc.section.16.5.1">16.5.1.</a>&nbsp;<a href="##range.unit.registry">Range Unit Registry</a></h4><div id="rfc.section.16.5.1.p.1"><p>The "HTTP Range Unit Registry" defines the namespace for the range unit names and refers to their corresponding specifications. It is maintained at <a href="https://www.iana.org/assignments/http-parameters">https://www.iana.org/assignments/http-parameters</a>.</p></div><div id="rfc.section.16.5.1.p.2" class="avoidbreakafter"><p>Registration of an HTTP Range Unit <em class="bcp14">MUST</em> include the following fields:</p></div><div id="rfc.section.16.5.1.p.3"><ul><li>Name</li><li>Description</li><li>Pointer to specification text</li></ul></div><div id="rfc.section.16.5.1.p.4"><p>Values to be added to this namespace require IETF Review (see <a href="##RFC8126" id="rfc.xref.RFC8126.5"><cite title="Guidelines for Writing an IANA Considerations Section in RFCs">[RFC8126]</cite></a>, <a href="https://www.rfc-editor.org/rfc/rfc8126.html#section-4.8">Section 4.8</a>).</p></div></section><section id="considerations.for.new.range.units"><h4 id="rfc.section.16.5.2"><a href="##rfc.section.16.5.2">16.5.2.</a>&nbsp;<a href="##considerations.for.new.range.units">Considerations for New Range Units</a></h4><div id="rfc.section.16.5.2.p.1"><p>Other range units, such as format-specific boundaries like pages, sections, records, rows, or time, are potentially usable in HTTP for application-specific purposes, but are not commonly used in practice. Implementors of alternative range units ought to consider how they would work with content codings and general-purpose intermediaries.</p></div></section></section><section id="content.coding.extensibility"><h3 id="rfc.section.16.6"><a href="##rfc.section.16.6">16.6.</a>&nbsp;<a href="##content.coding.extensibility">Content Coding Extensibility</a></h3><section id="content.coding.registry"><h4 id="rfc.section.16.6.1"><a href="##rfc.section.16.6.1">16.6.1.</a>&nbsp;<a href="##content.coding.registry">Content Coding Registry</a></h4><div id="rfc.section.16.6.1.p.1"><p>The "HTTP Content Coding Registry", maintained by IANA at <a href="https://www.iana.org/assignments/http-parameters/">https://www.iana.org/assignments/http-parameters/</a>, registers <a href="##content.codings" class="smpl">content-coding</a> names.</p></div><div id="rfc.section.16.6.1.p.2" class="avoidbreakafter"><p>Content coding registrations <em class="bcp14">MUST</em> include the following fields:</p></div><div id="rfc.section.16.6.1.p.3"><ul><li>Name</li><li>Description</li><li>Pointer to specification text</li></ul></div><div id="rfc.section.16.6.1.p.4"><p>Names of content codings <em class="bcp14">MUST NOT</em> overlap with names of transfer codings (per the "HTTP Transfer Coding Registry" located at <a href="https://www.iana.org/assignments/http-parameters/">https://www.iana.org/assignments/http-parameters/</a>) unless the encoding transformation is identical (as is the case for the compression codings defined in <a href="##content.codings" title="Content Codings">Section 8.4.1</a>).</p></div><div id="rfc.section.16.6.1.p.5"><p>Values to be added to this namespace require IETF Review (see <a href="https://www.rfc-editor.org/rfc/rfc8126.html#section-4.8">Section 4.8</a> of <a href="##RFC8126" id="rfc.xref.RFC8126.6"><cite title="Guidelines for Writing an IANA Considerations Section in RFCs">[RFC8126]</cite></a>) and <em class="bcp14">MUST</em> conform to the purpose of content coding defined in <a href="##content.codings" title="Content Codings">Section 8.4.1</a>.</p></div></section><section id="considerations.for.new.content.codings"><h4 id="rfc.section.16.6.2"><a href="##rfc.section.16.6.2">16.6.2.</a>&nbsp;<a href="##considerations.for.new.content.codings">Considerations for New Content Codings</a></h4><div id="rfc.section.16.6.2.p.1"><p>New content codings ought to be self-descriptive whenever possible, with optional parameters discoverable within the coding format itself, rather than rely on external metadata that might be lost during transit.</p></div></section></section><section id="upgrade.token.registry"><h3 id="rfc.section.16.7"><a href="##rfc.section.16.7">16.7.</a>&nbsp;<a href="##upgrade.token.registry">Upgrade Token Registry</a></h3><div id="rfc.section.16.7.p.1"><p>The "Hypertext Transfer Protocol (HTTP) Upgrade Token Registry" defines the namespace for protocol-name tokens used to identify protocols in the <a href="##field.upgrade" class="smpl">Upgrade</a> header field. The registry is maintained at <a href="https://www.iana.org/assignments/http-upgrade-tokens">https://www.iana.org/assignments/http-upgrade-tokens</a>.</p></div><div id="rfc.section.16.7.p.2"><p>Each registered protocol name is associated with contact information and an optional set of specifications that details how the connection will be processed after it has been upgraded.</p></div><div id="rfc.section.16.7.p.3" class="avoidbreakafter"><p>Registrations happen on a "First Come First Served" basis (see <a href="https://www.rfc-editor.org/rfc/rfc8126.html#section-4.4">Section 4.4</a> of <a href="##RFC8126" id="rfc.xref.RFC8126.7"><cite title="Guidelines for Writing an IANA Considerations Section in RFCs">[RFC8126]</cite></a>) and are subject to the following rules:</p></div><div id="rfc.section.16.7.p.4"><ol><li>A protocol-name token, once registered, stays registered forever.</li><li>A protocol-name token is case-insensitive and registered with the preferred case to be generated by senders.</li><li>The registration <em class="bcp14">MUST</em> name a responsible party for the registration.</li><li>The registration <em class="bcp14">MUST</em> name a point of contact.</li><li>The registration <em class="bcp14">MAY</em> name a set of specifications associated with that token. Such specifications need not be publicly available.</li><li>The registration <em class="bcp14">SHOULD</em> name a set of expected "protocol-version" tokens associated with that token at the time of registration.</li><li>The responsible party <em class="bcp14">MAY</em> change the registration at any time. The IANA will keep a record of all such changes, and make them available upon request.</li><li>The IESG <em class="bcp14">MAY</em> reassign responsibility for a protocol token. This will normally only be used in the case when a responsible party cannot be contacted.</li></ol></div></section></section><section id="security.considerations"><h2 id="rfc.section.17"><a href="##rfc.section.17">17.</a>&nbsp;<a href="##security.considerations">Security Considerations</a></h2><div id="rfc.section.17.p.1"><p>This section is meant to inform developers, information providers, and users of known security concerns relevant to HTTP semantics and its use for transferring information over the Internet. Considerations related to caching are discussed in <a href="https://httpwg.org/specs/rfc9111.html#security.considerations" title="Security Considerations">Section 7</a> of <a href="##CACHING" id="rfc.xref.CACHING.44"><cite title="HTTP Caching">[CACHING]</cite></a>, and considerations related to HTTP/1.1 message syntax and parsing are discussed in <a href="https://httpwg.org/specs/rfc9112.html#security.considerations" title="Security Considerations">Section 11</a> of <a href="##HTTP11" id="rfc.xref.HTTP11.25"><cite title="HTTP/1.1">[HTTP/1.1]</cite></a>.</p></div><div id="rfc.section.17.p.2"><p>The list of considerations below is not exhaustive. Most security concerns related to HTTP semantics are about securing server-side applications (code behind the HTTP interface), securing user agent processing of content received via HTTP, or secure use of the Internet in general, rather than security of the protocol. The security considerations for URIs, which are fundamental to HTTP operation, are discussed in <a href="https://www.rfc-editor.org/rfc/rfc3986.html#section-7">Section 7</a> of <a href="##URI" id="rfc.xref.URI.34"><cite title="Uniform Resource Identifier (URI): Generic Syntax">[URI]</cite></a>. Various organizations maintain topical information and links to current research on Web application security (e.g., <a href="##OWASP" id="rfc.xref.OWASP.1"><cite title="The Open Web Application Security Project">[OWASP]</cite></a>).</p></div><section id="establishing.authority"><h3 id="rfc.section.17.1"><a href="##rfc.section.17.1">17.1.</a>&nbsp;<a href="##establishing.authority">Establishing Authority</a></h3><div id="rfc.section.17.1.p.1"><p>HTTP relies on the notion of an <dfn>authoritative response</dfn>: a response that has been determined by (or at the direction of) the origin server identified within the target URI to be the most appropriate response for that request given the state of the target resource at the time of response message origination.</p></div><div id="rfc.section.17.1.p.2"><p>When a registered name is used in the authority component, the "http" URI scheme (<a href="##http.uri" title="http URI Scheme">Section 4.2.1</a>) relies on the user's local name resolution service to determine where it can find authoritative responses. This means that any attack on a user's network host table, cached names, or name resolution libraries becomes an avenue for attack on establishing authority for "http" URIs. Likewise, the user's choice of server for Domain Name Service (DNS), and the hierarchy of servers from which it obtains resolution results, could impact the authenticity of address mappings; DNS Security Extensions (DNSSEC, <a href="##RFC4033" id="rfc.xref.RFC4033.1"><cite title="DNS Security Introduction and Requirements">[RFC4033]</cite></a>) are one way to improve authenticity, as are the various mechanisms for making DNS requests over more secure transfer protocols.</p></div><div id="rfc.section.17.1.p.3"><p>Furthermore, after an IP address is obtained, establishing authority for an "http" URI is vulnerable to attacks on Internet Protocol routing.</p></div><div id="rfc.section.17.1.p.4"><p>The "https" scheme (<a href="##https.uri" title="https URI Scheme">Section 4.2.2</a>) is intended to prevent (or at least reveal) many of these potential attacks on establishing authority, provided that the negotiated connection is secured and the client properly verifies that the communicating server's identity matches the target URI's authority component (<a href="##https.verify" title="https Certificate Verification">Section 4.3.4</a>). Correctly implementing such verification can be difficult (see <a href="##Georgiev" id="rfc.xref.Georgiev.1"><cite title="The Most Dangerous Code in the World: Validating SSL Certificates in Non-Browser Software">[Georgiev]</cite></a>).</p></div><div id="rfc.section.17.1.p.5"><p>Authority for a given origin server can be delegated through protocol extensions; for example, <a href="##ALTSVC" id="rfc.xref.ALTSVC.3"><cite title="HTTP Alternative Services">[ALTSVC]</cite></a>. Likewise, the set of servers for which a connection is considered authoritative can be changed with a protocol extension like <a href="##RFC8336" id="rfc.xref.RFC8336.2"><cite title="The ORIGIN HTTP/2 Frame">[RFC8336]</cite></a>.</p></div><div id="rfc.section.17.1.p.6"><p>Providing a response from a non-authoritative source, such as a shared proxy cache, is often useful to improve performance and availability, but only to the extent that the source can be trusted or the distrusted response can be safely used.</p></div><div id="rfc.section.17.1.p.7"><p>Unfortunately, communicating authority to users can be difficult. For example, <dfn>phishing</dfn> is an attack on the user's perception of authority, where that perception can be misled by presenting similar branding in hypertext, possibly aided by userinfo obfuscating the authority component (see <a href="##http.uri" title="http URI Scheme">Section 4.2.1</a>). User agents can reduce the impact of phishing attacks by enabling users to easily inspect a target URI prior to making an action, by prominently distinguishing (or rejecting) userinfo when present, and by not sending stored credentials and cookies when the referring document is from an unknown or untrusted source.</p></div></section><section id="risks.intermediaries"><h3 id="rfc.section.17.2"><a href="##rfc.section.17.2">17.2.</a>&nbsp;<a href="##risks.intermediaries">Risks of Intermediaries</a></h3><div id="rfc.section.17.2.p.1"><p>HTTP intermediaries are inherently situated for on-path attacks. Compromise of the systems on which the intermediaries run can result in serious security and privacy problems. Intermediaries might have access to security-related information, personal information about individual users and organizations, and proprietary information belonging to users and content providers. A compromised intermediary, or an intermediary implemented or configured without regard to security and privacy considerations, might be used in the commission of a wide range of potential attacks.</p></div><div id="rfc.section.17.2.p.2"><p>Intermediaries that contain a shared cache are especially vulnerable to cache poisoning attacks, as described in <a href="https://httpwg.org/specs/rfc9111.html#security.considerations" title="Security Considerations">Section 7</a> of <a href="##CACHING" id="rfc.xref.CACHING.45"><cite title="HTTP Caching">[CACHING]</cite></a>.</p></div><div id="rfc.section.17.2.p.3"><p>Implementers need to consider the privacy and security implications of their design and coding decisions, and of the configuration options they provide to operators (especially the default configuration).</p></div><div id="rfc.section.17.2.p.4"><p>Intermediaries are no more trustworthy than the people and policies under which they operate; HTTP cannot solve this problem.</p></div></section><section id="attack.pathname"><h3 id="rfc.section.17.3"><a href="##rfc.section.17.3">17.3.</a>&nbsp;<a href="##attack.pathname">Attacks Based on File and Path Names</a></h3><div id="rfc.section.17.3.p.1"><p>Origin servers frequently make use of their local file system to manage the mapping from target URI to resource representations. Most file systems are not designed to protect against malicious file or path names. Therefore, an origin server needs to avoid accessing names that have a special significance to the system when mapping the target resource to files, folders, or directories.</p></div><div id="rfc.section.17.3.p.2"><p>For example, UNIX, Microsoft Windows, and other operating systems use ".." as a path component to indicate a directory level above the current one, and they use specially named paths or file names to send data to system devices. Similar naming conventions might exist within other types of storage systems. Likewise, local storage systems have an annoying tendency to prefer user-friendliness over security when handling invalid or unexpected characters, recomposition of decomposed characters, and case-normalization of case-insensitive names.</p></div><div id="rfc.section.17.3.p.3"><p>Attacks based on such special names tend to focus on either denial-of-service (e.g., telling the server to read from a COM port) or disclosure of configuration and source files that are not meant to be served.</p></div></section><section id="attack.injection"><h3 id="rfc.section.17.4"><a href="##rfc.section.17.4">17.4.</a>&nbsp;<a href="##attack.injection">Attacks Based on Command, Code, or Query Injection</a></h3><div id="rfc.section.17.4.p.1"><p>Origin servers often use parameters within the URI as a means of identifying system services, selecting database entries, or choosing a data source. However, data received in a request cannot be trusted. An attacker could construct any of the request data elements (method, target URI, header fields, or content) to contain data that might be misinterpreted as a command, code, or query when passed through a command invocation, language interpreter, or database interface.</p></div><div id="rfc.section.17.4.p.2"><p>For example, SQL injection is a common attack wherein additional query language is inserted within some part of the target URI or header fields (e.g., <a href="##field.host" class="smpl">Host</a>, <a href="##field.referer" class="smpl">Referer</a>, etc.). If the received data is used directly within a SELECT statement, the query language might be interpreted as a database command instead of a simple string value. This type of implementation vulnerability is extremely common, in spite of being easy to prevent.</p></div><div id="rfc.section.17.4.p.3"><p>In general, resource implementations ought to avoid use of request data in contexts that are processed or interpreted as instructions. Parameters ought to be compared to fixed strings and acted upon as a result of that comparison, rather than passed through an interface that is not prepared for untrusted data. Received data that isn't based on fixed parameters ought to be carefully filtered or encoded to avoid being misinterpreted.</p></div><div id="rfc.section.17.4.p.4"><p>Similar considerations apply to request data when it is stored and later processed, such as within log files, monitoring tools, or when included within a data format that allows embedded scripts.</p></div></section><section id="attack.protocol.element.length"><h3 id="rfc.section.17.5"><a href="##rfc.section.17.5">17.5.</a>&nbsp;<a href="##attack.protocol.element.length">Attacks via Protocol Element Length</a></h3><div id="rfc.section.17.5.p.1"><p>Because HTTP uses mostly textual, character-delimited fields, parsers are often vulnerable to attacks based on sending very long (or very slow) streams of data, particularly where an implementation is expecting a protocol element with no predefined length (<a href="##length.requirements" title="Length Requirements">Section 2.3</a>).</p></div><div id="rfc.section.17.5.p.2"><p>To promote interoperability, specific recommendations are made for minimum size limits on fields (<a href="##fields.limits" title="Field Limits">Section 5.4</a>). These are minimum recommendations, chosen to be supportable even by implementations with limited resources; it is expected that most implementations will choose substantially higher limits.</p></div><div id="rfc.section.17.5.p.3"><p>A server can reject a message that has a target URI that is too long (<a href="##status.414" id="rfc.xref.status.414.1" title="414 URI Too Long">Section 15.5.15</a>) or request content that is too large (<a href="##status.413" id="rfc.xref.status.413.1" title="413 Content Too Large">Section 15.5.14</a>). Additional status codes related to capacity limits have been defined by extensions to HTTP <a href="##RFC6585" id="rfc.xref.RFC6585.1"><cite title="Additional HTTP Status Codes">[RFC6585]</cite></a>.</p></div><div id="rfc.section.17.5.p.4"><p>Recipients ought to carefully limit the extent to which they process other protocol elements, including (but not limited to) request methods, response status phrases, field names, numeric values, and chunk lengths. Failure to limit such processing can result in arbitrary code execution due to buffer or arithmetic overflows, and increased vulnerability to denial-of-service attacks.</p></div></section><section id="compression.attacks"><h3 id="rfc.section.17.6"><a href="##rfc.section.17.6">17.6.</a>&nbsp;<a href="##compression.attacks">Attacks Using Shared-Dictionary Compression</a></h3><div id="rfc.section.17.6.p.1"><p>Some attacks on encrypted protocols use the differences in size created by dynamic compression to reveal confidential information; for example, <a href="##BREACH" id="rfc.xref.BREACH.1"><cite title="BREACH: Reviving the CRIME Attack">[BREACH]</cite></a>. These attacks rely on creating a redundancy between attacker-controlled content and the confidential information, such that a dynamic compression algorithm using the same dictionary for both content will compress more efficiently when the attacker-controlled content matches parts of the confidential content.</p></div><div id="rfc.section.17.6.p.2"><p>HTTP messages can be compressed in a number of ways, including using TLS compression, content codings, transfer codings, and other extension or version-specific mechanisms.</p></div><div id="rfc.section.17.6.p.3"><p>The most effective mitigation for this risk is to disable compression on sensitive data, or to strictly separate sensitive data from attacker-controlled data so that they cannot share the same compression dictionary. With careful design, a compression scheme can be designed in a way that is not considered exploitable in limited use cases, such as HPACK (<a href="##HPACK" id="rfc.xref.HPACK.1"><cite title="HPACK: Header Compression for HTTP/2">[HPACK]</cite></a>).</p></div></section><section id="personal.information"><h3 id="rfc.section.17.7"><a href="##rfc.section.17.7">17.7.</a>&nbsp;<a href="##personal.information">Disclosure of Personal Information</a></h3><div id="rfc.section.17.7.p.1"><p>Clients are often privy to large amounts of personal information, including both information provided by the user to interact with resources (e.g., the user's name, location, mail address, passwords, encryption keys, etc.) and information about the user's browsing activity over time (e.g., history, bookmarks, etc.). Implementations need to prevent unintentional disclosure of personal information.</p></div></section><section id="privacy.of.server.log.information"><h3 id="rfc.section.17.8"><a href="##rfc.section.17.8">17.8.</a>&nbsp;<a href="##privacy.of.server.log.information">Privacy of Server Log Information</a></h3><div id="rfc.section.17.8.p.1"><p>A server is in the position to save personal data about a user's requests over time, which might identify their reading patterns or subjects of interest. In particular, log information gathered at an intermediary often contains a history of user agent interaction, across a multitude of sites, that can be traced to individual users.</p></div><div id="rfc.section.17.8.p.2"><p>HTTP log information is confidential in nature; its handling is often constrained by laws and regulations. Log information needs to be securely stored and appropriate guidelines followed for its analysis. Anonymization of personal information within individual entries helps, but it is generally not sufficient to prevent real log traces from being re-identified based on correlation with other access characteristics. As such, access traces that are keyed to a specific client are unsafe to publish even if the key is pseudonymous.</p></div><div id="rfc.section.17.8.p.3"><p>To minimize the risk of theft or accidental publication, log information ought to be purged of personally identifiable information, including user identifiers, IP addresses, and user-provided query parameters, as soon as that information is no longer necessary to support operational needs for security, auditing, or fraud control.</p></div></section><section id="sensitive.information.in.uris"><h3 id="rfc.section.17.9"><a href="##rfc.section.17.9">17.9.</a>&nbsp;<a href="##sensitive.information.in.uris">Disclosure of Sensitive Information in URIs</a></h3><div id="rfc.section.17.9.p.1"><p>URIs are intended to be shared, not secured, even when they identify secure resources. URIs are often shown on displays, added to templates when a page is printed, and stored in a variety of unprotected bookmark lists. Many servers, proxies, and user agents log or display the target URI in places where it might be visible to third parties. It is therefore unwise to include information within a URI that is sensitive, personally identifiable, or a risk to disclose.</p></div><div id="rfc.section.17.9.p.2"><p>When an application uses client-side mechanisms to construct a target URI out of user-provided information, such as the query fields of a form using GET, potentially sensitive data might be provided that would not be appropriate for disclosure within a URI. POST is often preferred in such cases because it usually doesn't construct a URI; instead, POST of a form transmits the potentially sensitive data in the request content. However, this hinders caching and uses an unsafe method for what would otherwise be a safe request. Alternative workarounds include transforming the user-provided data prior to constructing the URI or filtering the data to only include common values that are not sensitive. Likewise, redirecting the result of a query to a different (server-generated) URI can remove potentially sensitive data from later links and provide a cacheable response for later reuse.</p></div><div id="rfc.section.17.9.p.3"><p>Since the <a href="##field.referer" class="smpl">Referer</a> header field tells a target site about the context that resulted in a request, it has the potential to reveal information about the user's immediate browsing history and any personal information that might be found in the referring resource's URI. Limitations on the Referer header field are described in <a href="##field.referer" id="rfc.xref.field.referer.1" title="Referer">Section 10.1.3</a> to address some of its security considerations.</p></div></section><section id="underscore.in.fields"><h3 id="rfc.section.17.10"><a href="##rfc.section.17.10">17.10.</a>&nbsp;<a href="##underscore.in.fields">Application Handling of Field Names</a></h3><div id="rfc.section.17.10.p.1"><p>Servers often use non-HTTP gateway interfaces and frameworks to process a received request and produce content for the response. For historical reasons, such interfaces often pass received field names as external variable names, using a name mapping suitable for environment variables.</p></div><div id="rfc.section.17.10.p.2"><p>For example, the Common Gateway Interface (CGI) mapping of protocol-specific meta-variables, defined by <a href="https://www.rfc-editor.org/rfc/rfc3875.html#section-4.1.18">Section 4.1.18</a> of <a href="##RFC3875" id="rfc.xref.RFC3875.1"><cite title="The Common Gateway Interface (CGI) Version 1.1">[RFC3875]</cite></a>, is applied to received header fields that do not correspond to one of CGI's standard variables; the mapping consists of prepending "HTTP_" to each name and changing all instances of hyphen ("-") to underscore ("_"). This same mapping has been inherited by many other application frameworks in order to simplify moving applications from one platform to the next.</p></div><div id="rfc.section.17.10.p.3"><p>In CGI, a received <a href="##field.content-length" class="smpl">Content-Length</a> field would be passed as the meta-variable "CONTENT_LENGTH" with a string value matching the received field's value. In contrast, a received "Content_Length" header field would be passed as the protocol-specific meta-variable "HTTP_CONTENT_LENGTH", which might lead to some confusion if an application mistakenly reads the protocol-specific meta-variable instead of the default one. (This historical practice is why <a href="##considerations.for.new.field.names" title="Considerations for New Field Names">Section 16.3.2.1</a> discourages the creation of new field names that contain an underscore.)</p></div><div id="rfc.section.17.10.p.4"><p>Unfortunately, mapping field names to different interface names can lead to security vulnerabilities if the mapping is incomplete or ambiguous. For example, if an attacker were to send a field named "Transfer_Encoding", a naive interface might map that to the same variable name as the "Transfer-Encoding" field, resulting in a potential request smuggling vulnerability (<a href="https://httpwg.org/specs/rfc9112.html#request.smuggling" title="Request Smuggling">Section 11.2</a> of <a href="##HTTP11" id="rfc.xref.HTTP11.26"><cite title="HTTP/1.1">[HTTP/1.1]</cite></a>).</p></div><div id="rfc.section.17.10.p.5"><p>To mitigate the associated risks, implementations that perform such mappings are advised to make the mapping unambiguous and complete for the full range of potential octets received as a name (including those that are discouraged or forbidden by the HTTP grammar). For example, a field with an unusual name character might result in the request being blocked, the specific field being removed, or the name being passed with a different prefix to distinguish it from other fields.</p></div></section><section id="fragment.disclosure"><h3 id="rfc.section.17.11"><a href="##rfc.section.17.11">17.11.</a>&nbsp;<a href="##fragment.disclosure">Disclosure of Fragment after Redirects</a></h3><div id="rfc.section.17.11.p.1"><p>Although fragment identifiers used within URI references are not sent in requests, implementers ought to be aware that they will be visible to the user agent and any extensions or scripts running as a result of the response. In particular, when a redirect occurs and the original request's fragment identifier is inherited by the new reference in <a href="##field.location" class="smpl">Location</a> (<a href="##field.location" id="rfc.xref.field.location.3" title="Location">Section 10.2.2</a>), this might have the effect of disclosing one site's fragment to another site. If the first site uses personal information in fragments, it ought to ensure that redirects to other sites include a (possibly empty) fragment component in order to block that inheritance.</p></div></section><section id="disclosure.product.information"><h3 id="rfc.section.17.12"><a href="##rfc.section.17.12">17.12.</a>&nbsp;<a href="##disclosure.product.information">Disclosure of Product Information</a></h3><div id="rfc.section.17.12.p.1"><p>The <a href="##field.user-agent" class="smpl">User-Agent</a> (<a href="##field.user-agent" id="rfc.xref.field.user-agent.2" title="User-Agent">Section 10.1.5</a>), <a href="##field.via" class="smpl">Via</a> (<a href="##field.via" id="rfc.xref.field.via.3" title="Via">Section 7.6.3</a>), and <a href="##field.server" class="smpl">Server</a> (<a href="##field.server" id="rfc.xref.field.server.1" title="Server">Section 10.2.4</a>) header fields often reveal information about the respective sender's software systems. In theory, this can make it easier for an attacker to exploit known security holes; in practice, attackers tend to try all potential holes regardless of the apparent software versions being used.</p></div><div id="rfc.section.17.12.p.2"><p>Proxies that serve as a portal through a network firewall ought to take special precautions regarding the transfer of header information that might identify hosts behind the firewall. The <a href="##field.via" class="smpl">Via</a> header field allows intermediaries to replace sensitive machine names with pseudonyms.</p></div></section><section id="fingerprinting"><h3 id="rfc.section.17.13"><a href="##rfc.section.17.13">17.13.</a>&nbsp;<a href="##fingerprinting">Browser Fingerprinting</a></h3><div id="rfc.section.17.13.p.1"><p>Browser fingerprinting is a set of techniques for identifying a specific user agent over time through its unique set of characteristics. These characteristics might include information related to how it uses the underlying transport protocol, feature capabilities, and scripting environment, though of particular interest here is the set of unique characteristics that might be communicated via HTTP. Fingerprinting is considered a privacy concern because it enables tracking of a user agent's behavior over time (<a href="##Bujlow" id="rfc.xref.Bujlow.1"><cite title="A Survey on Web Tracking: Mechanisms, Implications, and Defenses">[Bujlow]</cite></a>) without the corresponding controls that the user might have over other forms of data collection (e.g., cookies). Many general-purpose user agents (i.e., Web browsers) have taken steps to reduce their fingerprints.</p></div><div id="rfc.section.17.13.p.2"><p>There are a number of request header fields that might reveal information to servers that is sufficiently unique to enable fingerprinting. The <a href="##field.from" class="smpl">From</a> header field is the most obvious, though it is expected that From will only be sent when self-identification is desired by the user. Likewise, Cookie header fields are deliberately designed to enable re-identification, so fingerprinting concerns only apply to situations where cookies are disabled or restricted by the user agent's configuration.</p></div><div id="rfc.section.17.13.p.3"><p>The <a href="##field.user-agent" class="smpl">User-Agent</a> header field might contain enough information to uniquely identify a specific device, usually when combined with other characteristics, particularly if the user agent sends excessive details about the user's system or extensions. However, the source of unique information that is least expected by users is <a href="##proactive.negotiation" class="smpl">proactive negotiation</a> (<a href="##proactive.negotiation" title="Proactive Negotiation">Section 12.1</a>), including the <a href="##field.accept" class="smpl">Accept</a>, <a href="##field.accept-charset" class="smpl">Accept-Charset</a>, <a href="##field.accept-encoding" class="smpl">Accept-Encoding</a>, and <a href="##field.accept-language" class="smpl">Accept-Language</a> header fields.</p></div><div id="rfc.section.17.13.p.4"><p>In addition to the fingerprinting concern, detailed use of the <a href="##field.accept-language" class="smpl">Accept-Language</a> header field can reveal information the user might consider to be of a private nature. For example, understanding a given language set might be strongly correlated to membership in a particular ethnic group. An approach that limits such loss of privacy would be for a user agent to omit the sending of Accept-Language except for sites that have been explicitly permitted, perhaps via interaction after detecting a <a href="##field.vary" class="smpl">Vary</a> header field that indicates language negotiation might be useful.</p></div><div id="rfc.section.17.13.p.5"><p>In environments where proxies are used to enhance privacy, user agents ought to be conservative in sending proactive negotiation header fields. General-purpose user agents that provide a high degree of header field configurability ought to inform users about the loss of privacy that might result if too much detail is provided. As an extreme privacy measure, proxies could filter the proactive negotiation header fields in relayed requests.</p></div></section><section id="security.validators"><h3 id="rfc.section.17.14"><a href="##rfc.section.17.14">17.14.</a>&nbsp;<a href="##security.validators">Validator Retention</a></h3><div id="rfc.section.17.14.p.1"><p>The validators defined by this specification are not intended to ensure the validity of a representation, guard against malicious changes, or detect on-path attacks. At best, they enable more efficient cache updates and optimistic concurrent writes when all participants are behaving nicely. At worst, the conditions will fail and the client will receive a response that is no more harmful than an HTTP exchange without conditional requests.</p></div><div id="rfc.section.17.14.p.2"><p>An entity tag can be abused in ways that create privacy risks. For example, a site might deliberately construct a semantically invalid entity tag that is unique to the user or user agent, send it in a cacheable response with a long freshness time, and then read that entity tag in later conditional requests as a means of re-identifying that user or user agent. Such an identifying tag would become a persistent identifier for as long as the user agent retained the original cache entry. User agents that cache representations ought to ensure that the cache is cleared or replaced whenever the user performs privacy-maintaining actions, such as clearing stored cookies or changing to a private browsing mode.</p></div></section><section id="overlapping.ranges"><h3 id="rfc.section.17.15"><a href="##rfc.section.17.15">17.15.</a>&nbsp;<a href="##overlapping.ranges">Denial-of-Service Attacks Using Range</a></h3><div id="rfc.section.17.15.p.1"><p>Unconstrained multiple range requests are susceptible to denial-of-service attacks because the effort required to request many overlapping ranges of the same data is tiny compared to the time, memory, and bandwidth consumed by attempting to serve the requested data in many parts. Servers ought to ignore, coalesce, or reject egregious range requests, such as requests for more than two overlapping ranges or for many small ranges in a single set, particularly when the ranges are requested out of order for no apparent reason. Multipart range requests are not designed to support random access.</p></div></section><section id="security.auth"><h3 id="rfc.section.17.16"><a href="##rfc.section.17.16">17.16.</a>&nbsp;<a href="##security.auth">Authentication Considerations</a></h3><div id="rfc.section.17.16.p.1"><p>Everything about the topic of HTTP authentication is a security consideration, so the list of considerations below is not exhaustive. Furthermore, it is limited to security considerations regarding the authentication framework, in general, rather than discussing all of the potential considerations for specific authentication schemes (which ought to be documented in the specifications that define those schemes). Various organizations maintain topical information and links to current research on Web application security (e.g., <a href="##OWASP" id="rfc.xref.OWASP.2"><cite title="The Open Web Application Security Project">[OWASP]</cite></a>), including common pitfalls for implementing and using the authentication schemes found in practice.</p></div><section id="confidentiality.of.credentials"><h4 id="rfc.section.17.16.1"><a href="##rfc.section.17.16.1">17.16.1.</a>&nbsp;<a href="##confidentiality.of.credentials">Confidentiality of Credentials</a></h4><div id="rfc.section.17.16.1.p.1"><p>The HTTP authentication framework does not define a single mechanism for maintaining the confidentiality of credentials; instead, each authentication scheme defines how the credentials are encoded prior to transmission. While this provides flexibility for the development of future authentication schemes, it is inadequate for the protection of existing schemes that provide no confidentiality on their own, or that do not sufficiently protect against replay attacks. Furthermore, if the server expects credentials that are specific to each individual user, the exchange of those credentials will have the effect of identifying that user even if the content within credentials remains confidential.</p></div><div id="rfc.section.17.16.1.p.2"><p>HTTP depends on the security properties of the underlying transport- or session-level connection to provide confidential transmission of fields. Services that depend on individual user authentication require a <a href="##https.uri" class="smpl">secured</a> connection prior to exchanging credentials (<a href="##https.uri" title="https URI Scheme">Section 4.2.2</a>).</p></div></section><section id="auth.credentials.and.idle.clients"><h4 id="rfc.section.17.16.2"><a href="##rfc.section.17.16.2">17.16.2.</a>&nbsp;<a href="##auth.credentials.and.idle.clients">Credentials and Idle Clients</a></h4><div id="rfc.section.17.16.2.p.1"><p>Existing HTTP clients and user agents typically retain authentication information indefinitely. HTTP does not provide a mechanism for the origin server to direct clients to discard these cached credentials, since the protocol has no awareness of how credentials are obtained or managed by the user agent. The mechanisms for expiring or revoking credentials can be specified as part of an authentication scheme definition.</p></div><div id="rfc.section.17.16.2.p.2" class="avoidbreakafter"><p>Circumstances under which credential caching can interfere with the application's security model include but are not limited to:</p></div><div id="rfc.section.17.16.2.p.3"><ul><li>Clients that have been idle for an extended period, following which the server might wish to cause the client to re-prompt the user for credentials.</li><li>Applications that include a session termination indication (such as a "logout" or "commit" button on a page) after which the server side of the application "knows" that there is no further reason for the client to retain the credentials.</li></ul></div><div id="rfc.section.17.16.2.p.4"><p>User agents that cache credentials are encouraged to provide a readily accessible mechanism for discarding cached credentials under user control.</p></div></section><section id="protection.spaces"><h4 id="rfc.section.17.16.3"><a href="##rfc.section.17.16.3">17.16.3.</a>&nbsp;<a href="##protection.spaces">Protection Spaces</a></h4><div id="rfc.section.17.16.3.p.1"><p>Authentication schemes that solely rely on the "realm" mechanism for establishing a protection space will expose credentials to all resources on an origin server. Clients that have successfully made authenticated requests with a resource can use the same authentication credentials for other resources on the same origin server. This makes it possible for a different resource to harvest authentication credentials for other resources.</p></div><div id="rfc.section.17.16.3.p.2"><p>This is of particular concern when an origin server hosts resources for multiple parties under the same origin (<a href="##protection.space" title="Establishing a Protection Space (Realm)">Section 11.5</a>). Possible mitigation strategies include restricting direct access to authentication credentials (i.e., not making the content of the <a href="##field.authorization" class="smpl">Authorization</a> request header field available), and separating protection spaces by using a different host name (or port number) for each party.</p></div></section><section id="security.auth.add.resp"><h4 id="rfc.section.17.16.4"><a href="##rfc.section.17.16.4">17.16.4.</a>&nbsp;<a href="##security.auth.add.resp">Additional Response Fields</a></h4><div id="rfc.section.17.16.4.p.1"><p>Adding information to responses that are sent over an unencrypted channel can affect security and privacy. The presence of the <a href="##field.authentication-info" class="smpl">Authentication-Info</a> and <a href="##field.proxy-authentication-info" class="smpl">Proxy-Authentication-Info</a> header fields alone indicates that HTTP authentication is in use. Additional information could be exposed by the contents of the authentication-scheme specific parameters; this will have to be considered in the definitions of these schemes.</p></div></section></section></section><section id="IANA.considerations"><h2 id="rfc.section.18"><a href="##rfc.section.18">18.</a>&nbsp;<a href="##IANA.considerations">IANA Considerations</a></h2><div id="rfc.section.18.p.1"><p>The change controller for the following registrations is: "IETF (iesg@ietf.org) - Internet Engineering Task Force".</p></div><section id="uri.scheme.registration"><h3 id="rfc.section.18.1"><a href="##rfc.section.18.1">18.1.</a>&nbsp;<a href="##uri.scheme.registration">URI Scheme Registration</a></h3><div id="rfc.section.18.1.p.1"><p>IANA has updated the "Uniform Resource Identifier (URI) Schemes" registry <a href="##BCP35" id="rfc.xref.BCP35.2">[BCP35]</a> at <a href="https://www.iana.org/assignments/uri-schemes/">https://www.iana.org/assignments/uri-schemes/</a> with the permanent schemes listed in <a href="##uri.scheme.table">Table 2</a> in <a href="##uri.schemes" title="HTTP-Related URI Schemes">Section 4.2</a>.</p></div></section><section id="method.registration"><h3 id="rfc.section.18.2"><a href="##rfc.section.18.2">18.2.</a>&nbsp;<a href="##method.registration">Method Registration</a></h3><div id="rfc.section.18.2.p.1"><p>IANA has updated the "Hypertext Transfer Protocol (HTTP) Method Registry" at <a href="https://www.iana.org/assignments/http-methods">https://www.iana.org/assignments/http-methods</a> with the registration procedure of <a href="##method.registry" title="Method Registry">Section 16.1.1</a> and the method names summarized in the following table.</p></div><div class="table table-condensed table-striped" id="iana.method.registration.table"><table class="v3 text-center"><caption>Table 7</caption><thead><tr><th class="text-left">Method</th><th class="text-left">Safe</th><th class="text-left">Idempotent</th><th class="text-left">Section</th></tr></thead><tbody><tr><td class="text-left">CONNECT</td><td class="text-left">no</td><td class="text-left">no</td><td class="text-left"><a href="##CONNECT" id="rfc.xref.CONNECT.7" title="CONNECT">9.3.6</a> </td></tr><tr><td class="text-left">DELETE</td><td class="text-left">no</td><td class="text-left">yes</td><td class="text-left"><a href="##DELETE" id="rfc.xref.DELETE.2" title="DELETE">9.3.5</a> </td></tr><tr><td class="text-left">GET</td><td class="text-left">yes</td><td class="text-left">yes</td><td class="text-left"><a href="##GET" id="rfc.xref.GET.7" title="GET">9.3.1</a> </td></tr><tr><td class="text-left">HEAD</td><td class="text-left">yes</td><td class="text-left">yes</td><td class="text-left"><a href="##HEAD" id="rfc.xref.HEAD.5" title="HEAD">9.3.2</a> </td></tr><tr><td class="text-left">OPTIONS</td><td class="text-left">yes</td><td class="text-left">yes</td><td class="text-left"><a href="##OPTIONS" id="rfc.xref.OPTIONS.4" title="OPTIONS">9.3.7</a> </td></tr><tr><td class="text-left">POST</td><td class="text-left">no</td><td class="text-left">no</td><td class="text-left"><a href="##POST" id="rfc.xref.POST.5" title="POST">9.3.3</a> </td></tr><tr><td class="text-left">PUT</td><td class="text-left">no</td><td class="text-left">yes</td><td class="text-left"><a href="##PUT" id="rfc.xref.PUT.7" title="PUT">9.3.4</a> </td></tr><tr><td class="text-left">TRACE</td><td class="text-left">yes</td><td class="text-left">yes</td><td class="text-left"><a href="##TRACE" id="rfc.xref.TRACE.3" title="TRACE">9.3.8</a> </td></tr><tr><td class="text-left">*</td><td class="text-left">no</td><td class="text-left">no</td><td class="text-left"><a href="##method.registration" title="Method Registration">18.2</a> </td></tr></tbody></table></div><div id="rfc.section.18.2.p.2"><p><span id="rfc.iref.m.9"></span>The method name "*" is reserved because using "*" as a method name would conflict with its usage as a wildcard in some fields (e.g., "Access-Control-Request-Method").</p></div></section><section id="status.code.registration"><h3 id="rfc.section.18.3"><a href="##rfc.section.18.3">18.3.</a>&nbsp;<a href="##status.code.registration">Status Code Registration</a></h3><div id="rfc.section.18.3.p.1"><p>IANA has updated the "Hypertext Transfer Protocol (HTTP) Status Code Registry" at <a href="https://www.iana.org/assignments/http-status-codes">https://www.iana.org/assignments/http-status-codes</a> with the registration procedure of <a href="##status.code.registry" title="Status Code Registry">Section 16.2.1</a> and the status code values summarized in the following table.</p></div><div class="table table-condensed table-striped" id="iana.status.code.registration.table"><table class="v3 text-center"><caption>Table 8</caption><thead><tr><th class="text-left">Value</th><th class="text-left">Description</th><th class="text-left">Section</th></tr></thead><tbody><tr><td class="text-left">100</td><td class="text-left">Continue</td><td class="text-left"><a href="##status.100" id="rfc.xref.status.100.1" title="100 Continue">15.2.1</a> </td></tr><tr><td class="text-left">101</td><td class="text-left">Switching Protocols</td><td class="text-left"><a href="##status.101" id="rfc.xref.status.101.1" title="101 Switching Protocols">15.2.2</a> </td></tr><tr><td class="text-left">200</td><td class="text-left">OK</td><td class="text-left"><a href="##status.200" id="rfc.xref.status.200.1" title="200 OK">15.3.1</a> </td></tr><tr><td class="text-left">201</td><td class="text-left">Created</td><td class="text-left"><a href="##status.201" id="rfc.xref.status.201.1" title="201 Created">15.3.2</a> </td></tr><tr><td class="text-left">202</td><td class="text-left">Accepted</td><td class="text-left"><a href="##status.202" id="rfc.xref.status.202.1" title="202 Accepted">15.3.3</a> </td></tr><tr><td class="text-left">203</td><td class="text-left">Non-Authoritative Information</td><td class="text-left"><a href="##status.203" id="rfc.xref.status.203.2" title="203 Non-Authoritative Information">15.3.4</a> </td></tr><tr><td class="text-left">204</td><td class="text-left">No Content</td><td class="text-left"><a href="##status.204" id="rfc.xref.status.204.1" title="204 No Content">15.3.5</a> </td></tr><tr><td class="text-left">205</td><td class="text-left">Reset Content</td><td class="text-left"><a href="##status.205" id="rfc.xref.status.205.1" title="205 Reset Content">15.3.6</a> </td></tr><tr><td class="text-left">206</td><td class="text-left">Partial Content</td><td class="text-left"><a href="##status.206" id="rfc.xref.status.206.4" title="206 Partial Content">15.3.7</a> </td></tr><tr><td class="text-left">300</td><td class="text-left">Multiple Choices</td><td class="text-left"><a href="##status.300" id="rfc.xref.status.300.2" title="300 Multiple Choices">15.4.1</a> </td></tr><tr><td class="text-left">301</td><td class="text-left">Moved Permanently</td><td class="text-left"><a href="##status.301" id="rfc.xref.status.301.1" title="301 Moved Permanently">15.4.2</a> </td></tr><tr><td class="text-left">302</td><td class="text-left">Found</td><td class="text-left"><a href="##status.302" id="rfc.xref.status.302.1" title="302 Found">15.4.3</a> </td></tr><tr><td class="text-left">303</td><td class="text-left">See Other</td><td class="text-left"><a href="##status.303" id="rfc.xref.status.303.1" title="303 See Other">15.4.4</a> </td></tr><tr><td class="text-left">304</td><td class="text-left">Not Modified</td><td class="text-left"><a href="##status.304" id="rfc.xref.status.304.2" title="304 Not Modified">15.4.5</a> </td></tr><tr><td class="text-left">305</td><td class="text-left">Use Proxy</td><td class="text-left"><a href="##status.305" id="rfc.xref.status.305.1" title="305 Use Proxy">15.4.6</a> </td></tr><tr><td class="text-left">306</td><td class="text-left">(Unused)</td><td class="text-left"><a href="##status.306" id="rfc.xref.status.306.1" title="306 (Unused)">15.4.7</a> </td></tr><tr><td class="text-left">307</td><td class="text-left">Temporary Redirect</td><td class="text-left"><a href="##status.307" id="rfc.xref.status.307.1" title="307 Temporary Redirect">15.4.8</a> </td></tr><tr><td class="text-left">308</td><td class="text-left">Permanent Redirect</td><td class="text-left"><a href="##status.308" id="rfc.xref.status.308.1" title="308 Permanent Redirect">15.4.9</a> </td></tr><tr><td class="text-left">400</td><td class="text-left">Bad Request</td><td class="text-left"><a href="##status.400" id="rfc.xref.status.400.1" title="400 Bad Request">15.5.1</a> </td></tr><tr><td class="text-left">401</td><td class="text-left">Unauthorized</td><td class="text-left"><a href="##status.401" id="rfc.xref.status.401.1" title="401 Unauthorized">15.5.2</a> </td></tr><tr><td class="text-left">402</td><td class="text-left">Payment Required</td><td class="text-left"><a href="##status.402" id="rfc.xref.status.402.1" title="402 Payment Required">15.5.3</a> </td></tr><tr><td class="text-left">403</td><td class="text-left">Forbidden</td><td class="text-left"><a href="##status.403" id="rfc.xref.status.403.2" title="403 Forbidden">15.5.4</a> </td></tr><tr><td class="text-left">404</td><td class="text-left">Not Found</td><td class="text-left"><a href="##status.404" id="rfc.xref.status.404.1" title="404 Not Found">15.5.5</a> </td></tr><tr><td class="text-left">405</td><td class="text-left">Method Not Allowed</td><td class="text-left"><a href="##status.405" id="rfc.xref.status.405.1" title="405 Method Not Allowed">15.5.6</a> </td></tr><tr><td class="text-left">406</td><td class="text-left">Not Acceptable</td><td class="text-left"><a href="##status.406" id="rfc.xref.status.406.1" title="406 Not Acceptable">15.5.7</a> </td></tr><tr><td class="text-left">407</td><td class="text-left">Proxy Authentication Required</td><td class="text-left"><a href="##status.407" id="rfc.xref.status.407.1" title="407 Proxy Authentication Required">15.5.8</a> </td></tr><tr><td class="text-left">408</td><td class="text-left">Request Timeout</td><td class="text-left"><a href="##status.408" id="rfc.xref.status.408.1" title="408 Request Timeout">15.5.9</a> </td></tr><tr><td class="text-left">409</td><td class="text-left">Conflict</td><td class="text-left"><a href="##status.409" id="rfc.xref.status.409.1" title="409 Conflict">15.5.10</a> </td></tr><tr><td class="text-left">410</td><td class="text-left">Gone</td><td class="text-left"><a href="##status.410" id="rfc.xref.status.410.1" title="410 Gone">15.5.11</a> </td></tr><tr><td class="text-left">411</td><td class="text-left">Length Required</td><td class="text-left"><a href="##status.411" id="rfc.xref.status.411.1" title="411 Length Required">15.5.12</a> </td></tr><tr><td class="text-left">412</td><td class="text-left">Precondition Failed</td><td class="text-left"><a href="##status.412" id="rfc.xref.status.412.1" title="412 Precondition Failed">15.5.13</a> </td></tr><tr><td class="text-left">413</td><td class="text-left">Content Too Large</td><td class="text-left"><a href="##status.413" id="rfc.xref.status.413.2" title="413 Content Too Large">15.5.14</a> </td></tr><tr><td class="text-left">414</td><td class="text-left">URI Too Long</td><td class="text-left"><a href="##status.414" id="rfc.xref.status.414.2" title="414 URI Too Long">15.5.15</a> </td></tr><tr><td class="text-left">415</td><td class="text-left">Unsupported Media Type</td><td class="text-left"><a href="##status.415" id="rfc.xref.status.415.1" title="415 Unsupported Media Type">15.5.16</a> </td></tr><tr><td class="text-left">416</td><td class="text-left">Range Not Satisfiable</td><td class="text-left"><a href="##status.416" id="rfc.xref.status.416.1" title="416 Range Not Satisfiable">15.5.17</a> </td></tr><tr><td class="text-left">417</td><td class="text-left">Expectation Failed</td><td class="text-left"><a href="##status.417" id="rfc.xref.status.417.1" title="417 Expectation Failed">15.5.18</a> </td></tr><tr><td class="text-left">418</td><td class="text-left">(Unused)</td><td class="text-left"><a href="##status.418" id="rfc.xref.status.418.1" title="418 (Unused)">15.5.19</a> </td></tr><tr><td class="text-left">421</td><td class="text-left">Misdirected Request</td><td class="text-left"><a href="##status.421" id="rfc.xref.status.421.2" title="421 Misdirected Request">15.5.20</a> </td></tr><tr><td class="text-left">422</td><td class="text-left">Unprocessable Content</td><td class="text-left"><a href="##status.422" id="rfc.xref.status.422.1" title="422 Unprocessable Content">15.5.21</a> </td></tr><tr><td class="text-left">426</td><td class="text-left">Upgrade Required</td><td class="text-left"><a href="##status.426" id="rfc.xref.status.426.1" title="426 Upgrade Required">15.5.22</a> </td></tr><tr><td class="text-left">500</td><td class="text-left">Internal Server Error</td><td class="text-left"><a href="##status.500" id="rfc.xref.status.500.1" title="500 Internal Server Error">15.6.1</a> </td></tr><tr><td class="text-left">501</td><td class="text-left">Not Implemented</td><td class="text-left"><a href="##status.501" id="rfc.xref.status.501.1" title="501 Not Implemented">15.6.2</a> </td></tr><tr><td class="text-left">502</td><td class="text-left">Bad Gateway</td><td class="text-left"><a href="##status.502" id="rfc.xref.status.502.1" title="502 Bad Gateway">15.6.3</a> </td></tr><tr><td class="text-left">503</td><td class="text-left">Service Unavailable</td><td class="text-left"><a href="##status.503" id="rfc.xref.status.503.1" title="503 Service Unavailable">15.6.4</a> </td></tr><tr><td class="text-left">504</td><td class="text-left">Gateway Timeout</td><td class="text-left"><a href="##status.504" id="rfc.xref.status.504.1" title="504 Gateway Timeout">15.6.5</a> </td></tr><tr><td class="text-left">505</td><td class="text-left">HTTP Version Not Supported</td><td class="text-left"><a href="##status.505" id="rfc.xref.status.505.1" title="505 HTTP Version Not Supported">15.6.6</a> </td></tr></tbody></table></div></section><section id="field.name.registration"><h3 id="rfc.section.18.4"><a href="##rfc.section.18.4">18.4.</a>&nbsp;<a href="##field.name.registration">Field Name Registration</a></h3><div id="rfc.section.18.4.p.1"><p>This specification updates the HTTP-related aspects of the existing registration procedures for message header fields defined in <a href="##RFC3864" id="rfc.xref.RFC3864.1"><cite title="Registration Procedures for Message Header Fields">[RFC3864]</cite></a>. It replaces the old procedures as they relate to HTTP by defining a new registration procedure and moving HTTP field definitions into a separate registry.</p></div><div id="rfc.section.18.4.p.2"><p>IANA has created a new registry titled "Hypertext Transfer Protocol (HTTP) Field Name Registry" as outlined in <a href="##fields.registry" title="Field Name Registry">Section 16.3.1</a>.</p></div><div id="rfc.section.18.4.p.3" class="avoidbreakafter"><p>IANA has moved all entries in the "Permanent Message Header Field Names" and "Provisional Message Header Field Names" registries (see <a href="https://www.iana.org/assignments/message-headers/">https://www.iana.org/assignments/message-headers/</a>) with the protocol 'http' to this registry and has applied the following changes:</p></div><div id="rfc.section.18.4.p.4"><ol><li>The 'Applicable Protocol' field has been omitted.</li><li>Entries that had a status of 'standard', 'experimental', 'reserved', or 'informational' have been made to have a status of 'permanent'.</li><li>Provisional entries without a status have been made to have a status of 'provisional'.</li><li>Permanent entries without a status (after confirmation that the registration document did not define one) have been made to have a status of 'provisional'. The expert(s) can choose to update the entries' status if there is evidence that another is more appropriate.</li></ol></div><div id="rfc.section.18.4.p.5" class="avoidbreakafter"><p>IANA has annotated the "Permanent Message Header Field Names" and "Provisional Message Header Field Names" registries with the following note to indicate that HTTP field name registrations have moved:</p></div><div id="rfc.section.18.4.p.6"><aside><div id="rfc.section.18.4.p.6.1"><p><strong>Note</strong></p></div><div id="rfc.section.18.4.p.6.2"><p>HTTP field name registrations have been moved to [<a href="https://www.iana.org/assignments/http-fields">https://www.iana.org/assignments/http-fields</a>] per [RFC9110].</p></div></aside></div><div id="rfc.section.18.4.p.7"><p>IANA has updated the "Hypertext Transfer Protocol (HTTP) Field Name Registry" with the field names listed in the following table.</p></div><div class="table table-condensed table-striped" id="iana.header.registration.table"><table class="v3 tleft"><caption>Table 9</caption><thead><tr><th class="text-left">Field Name</th><th class="text-left">Status</th><th class="text-left">Section</th><th class="text-left">Comments</th></tr></thead><tbody><tr><td class="text-left">Accept</td><td class="text-left">permanent</td><td class="text-left"><a href="##field.accept" id="rfc.xref.field.accept.5" title="Accept">12.5.1</a> </td><td class="text-left"></td></tr><tr><td class="text-left">Accept-Charset</td><td class="text-left">deprecated</td><td class="text-left"><a href="##field.accept-charset" id="rfc.xref.field.accept-charset.1" title="Accept-Charset">12.5.2</a> </td><td class="text-left"></td></tr><tr><td class="text-left">Accept-Encoding</td><td class="text-left">permanent</td><td class="text-left"><a href="##field.accept-encoding" id="rfc.xref.field.accept-encoding.5" title="Accept-Encoding">12.5.3</a> </td><td class="text-left"></td></tr><tr><td class="text-left">Accept-Language</td><td class="text-left">permanent</td><td class="text-left"><a href="##field.accept-language" id="rfc.xref.field.accept-language.2" title="Accept-Language">12.5.4</a> </td><td class="text-left"></td></tr><tr><td class="text-left">Accept-Ranges</td><td class="text-left">permanent</td><td class="text-left"><a href="##field.accept-ranges" id="rfc.xref.field.accept-ranges.2" title="Accept-Ranges">14.3</a> </td><td class="text-left"></td></tr><tr><td class="text-left">Allow</td><td class="text-left">permanent</td><td class="text-left"><a href="##field.allow" id="rfc.xref.field.allow.2" title="Allow">10.2.1</a> </td><td class="text-left"></td></tr><tr><td class="text-left">Authentication-Info</td><td class="text-left">permanent</td><td class="text-left"><a href="##field.authentication-info" id="rfc.xref.field.authentication-info.1" title="Authentication-Info">11.6.3</a> </td><td class="text-left"></td></tr><tr><td class="text-left">Authorization</td><td class="text-left">permanent</td><td class="text-left"><a href="##field.authorization" id="rfc.xref.field.authorization.4" title="Authorization">11.6.2</a> </td><td class="text-left"></td></tr><tr><td class="text-left">Connection</td><td class="text-left">permanent</td><td class="text-left"><a href="##field.connection" id="rfc.xref.field.connection.7" title="Connection">7.6.1</a> </td><td class="text-left"></td></tr><tr><td class="text-left">Content-Encoding</td><td class="text-left">permanent</td><td class="text-left"><a href="##field.content-encoding" id="rfc.xref.field.content-encoding.2" title="Content-Encoding">8.4</a> </td><td class="text-left"></td></tr><tr><td class="text-left">Content-Language</td><td class="text-left">permanent</td><td class="text-left"><a href="##field.content-language" id="rfc.xref.field.content-language.1" title="Content-Language">8.5</a> </td><td class="text-left"></td></tr><tr><td class="text-left">Content-Length</td><td class="text-left">permanent</td><td class="text-left"><a href="##field.content-length" id="rfc.xref.field.content-length.2" title="Content-Length">8.6</a> </td><td class="text-left"></td></tr><tr><td class="text-left">Content-Location</td><td class="text-left">permanent</td><td class="text-left"><a href="##field.content-location" id="rfc.xref.field.content-location.3" title="Content-Location">8.7</a> </td><td class="text-left"></td></tr><tr><td class="text-left">Content-Range</td><td class="text-left">permanent</td><td class="text-left"><a href="##field.content-range" id="rfc.xref.field.content-range.5" title="Content-Range">14.4</a> </td><td class="text-left"></td></tr><tr><td class="text-left">Content-Type</td><td class="text-left">permanent</td><td class="text-left"><a href="##field.content-type" id="rfc.xref.field.content-type.3" title="Content-Type">8.3</a> </td><td class="text-left"></td></tr><tr><td class="text-left">Date</td><td class="text-left">permanent</td><td class="text-left"><a href="##field.date" id="rfc.xref.field.date.4" title="Date">6.6.1</a> </td><td class="text-left"></td></tr><tr><td class="text-left">ETag</td><td class="text-left">permanent</td><td class="text-left"><a href="##field.etag" id="rfc.xref.field.etag.2" title="ETag">8.8.3</a> </td><td class="text-left"></td></tr><tr><td class="text-left">Expect</td><td class="text-left">permanent</td><td class="text-left"><a href="##field.expect" id="rfc.xref.field.expect.4" title="Expect">10.1.1</a> </td><td class="text-left"></td></tr><tr><td class="text-left">From</td><td class="text-left">permanent</td><td class="text-left"><a href="##field.from" id="rfc.xref.field.from.1" title="From">10.1.2</a> </td><td class="text-left"></td></tr><tr><td class="text-left">Host</td><td class="text-left">permanent</td><td class="text-left"><a href="##field.host" id="rfc.xref.field.host.3" title="Host and :authority">7.2</a> </td><td class="text-left"></td></tr><tr><td class="text-left">If-Match</td><td class="text-left">permanent</td><td class="text-left"><a href="##field.if-match" id="rfc.xref.field.if-match.2" title="If-Match">13.1.1</a> </td><td class="text-left"></td></tr><tr><td class="text-left">If-Modified-Since</td><td class="text-left">permanent</td><td class="text-left"><a href="##field.if-modified-since" id="rfc.xref.field.if-modified-since.1" title="If-Modified-Since">13.1.3</a> </td><td class="text-left"></td></tr><tr><td class="text-left">If-None-Match</td><td class="text-left">permanent</td><td class="text-left"><a href="##field.if-none-match" id="rfc.xref.field.if-none-match.1" title="If-None-Match">13.1.2</a> </td><td class="text-left"></td></tr><tr><td class="text-left">If-Range</td><td class="text-left">permanent</td><td class="text-left"><a href="##field.if-range" id="rfc.xref.field.if-range.4" title="If-Range">13.1.5</a> </td><td class="text-left"></td></tr><tr><td class="text-left">If-Unmodified-Since</td><td class="text-left">permanent</td><td class="text-left"><a href="##field.if-unmodified-since" id="rfc.xref.field.if-unmodified-since.2" title="If-Unmodified-Since">13.1.4</a> </td><td class="text-left"></td></tr><tr><td class="text-left">Last-Modified</td><td class="text-left">permanent</td><td class="text-left"><a href="##field.last-modified" id="rfc.xref.field.last-modified.2" title="Last-Modified">8.8.2</a> </td><td class="text-left"></td></tr><tr><td class="text-left">Location</td><td class="text-left">permanent</td><td class="text-left"><a href="##field.location" id="rfc.xref.field.location.4" title="Location">10.2.2</a> </td><td class="text-left"></td></tr><tr><td class="text-left">Max-Forwards</td><td class="text-left">permanent</td><td class="text-left"><a href="##field.max-forwards" id="rfc.xref.field.max-forwards.3" title="Max-Forwards">7.6.2</a> </td><td class="text-left"></td></tr><tr><td class="text-left">Proxy-Authenticate</td><td class="text-left">permanent</td><td class="text-left"><a href="##field.proxy-authenticate" id="rfc.xref.field.proxy-authenticate.2" title="Proxy-Authenticate">11.7.1</a> </td><td class="text-left"></td></tr><tr><td class="text-left">Proxy-Authentication-Info</td><td class="text-left">permanent</td><td class="text-left"><a href="##field.proxy-authentication-info" id="rfc.xref.field.proxy-authentication-info.1" title="Proxy-Authentication-Info">11.7.3</a> </td><td class="text-left"></td></tr><tr><td class="text-left">Proxy-Authorization</td><td class="text-left">permanent</td><td class="text-left"><a href="##field.proxy-authorization" id="rfc.xref.field.proxy-authorization.3" title="Proxy-Authorization">11.7.2</a> </td><td class="text-left"></td></tr><tr><td class="text-left">Range</td><td class="text-left">permanent</td><td class="text-left"><a href="##field.range" id="rfc.xref.field.range.5" title="Range">14.2</a> </td><td class="text-left"></td></tr><tr><td class="text-left">Referer</td><td class="text-left">permanent</td><td class="text-left"><a href="##field.referer" id="rfc.xref.field.referer.2" title="Referer">10.1.3</a> </td><td class="text-left"></td></tr><tr><td class="text-left">Retry-After</td><td class="text-left">permanent</td><td class="text-left"><a href="##field.retry-after" id="rfc.xref.field.retry-after.2" title="Retry-After">10.2.3</a> </td><td class="text-left"></td></tr><tr><td class="text-left">Server</td><td class="text-left">permanent</td><td class="text-left"><a href="##field.server" id="rfc.xref.field.server.2" title="Server">10.2.4</a> </td><td class="text-left"></td></tr><tr><td class="text-left">TE</td><td class="text-left">permanent</td><td class="text-left"><a href="##field.te" id="rfc.xref.field.te.3" title="TE">10.1.4</a> </td><td class="text-left"></td></tr><tr><td class="text-left">Trailer</td><td class="text-left">permanent</td><td class="text-left"><a href="##field.trailer" id="rfc.xref.field.trailer.2" title="Trailer">6.6.2</a> </td><td class="text-left"></td></tr><tr><td class="text-left">Upgrade</td><td class="text-left">permanent</td><td class="text-left"><a href="##field.upgrade" id="rfc.xref.field.upgrade.6" title="Upgrade">7.8</a> </td><td class="text-left"></td></tr><tr><td class="text-left">User-Agent</td><td class="text-left">permanent</td><td class="text-left"><a href="##field.user-agent" id="rfc.xref.field.user-agent.3" title="User-Agent">10.1.5</a> </td><td class="text-left"></td></tr><tr><td class="text-left">Vary</td><td class="text-left">permanent</td><td class="text-left"><a href="##field.vary" id="rfc.xref.field.vary.3" title="Vary">12.5.5</a> </td><td class="text-left"></td></tr><tr><td class="text-left">Via</td><td class="text-left">permanent</td><td class="text-left"><a href="##field.via" id="rfc.xref.field.via.4" title="Via">7.6.3</a> </td><td class="text-left"></td></tr><tr><td class="text-left">WWW-Authenticate</td><td class="text-left">permanent</td><td class="text-left"><a href="##field.www-authenticate" id="rfc.xref.field.www-authenticate.3" title="WWW-Authenticate">11.6.1</a> </td><td class="text-left"></td></tr><tr><td class="text-left">*</td><td class="text-left">permanent</td><td class="text-left"><a href="##field.vary" id="rfc.xref.field.vary.4" title="Vary">12.5.5</a> </td><td class="text-left">(reserved)</td></tr></tbody></table></div><div id="rfc.section.18.4.p.8"><p id="field.asterisk"><span id="rfc.iref.f.6"></span>The field name "*" is reserved because using that name as an HTTP header field might conflict with its special semantics in the <a href="##field.vary" class="smpl">Vary</a> header field (<a href="##field.vary" id="rfc.xref.field.vary.5" title="Vary">Section 12.5.5</a>).</p></div><div id="rfc.section.18.4.p.9"><p><span id="rfc.iref.f.7"></span><span id="rfc.iref.h.3"></span><span id="rfc.iref.c.3"></span>IANA has updated the "Content-MD5" entry in the new registry to have a status of 'obsoleted' with references to <a href="https://www.rfc-editor.org/rfc/rfc2616.html#section-14.15">Section 14.15</a> of <a href="##RFC2616" id="rfc.xref.RFC2616.4"><cite title="Hypertext Transfer Protocol -- HTTP/1.1">[RFC2616]</cite></a> (for the definition of the header field) and <a href="https://www.rfc-editor.org/rfc/rfc7231.html#appendix-B">Appendix B</a> of <a href="##RFC7231" id="rfc.xref.RFC7231.3"><cite title="Hypertext Transfer Protocol (HTTP/1.1): Semantics and Content">[RFC7231]</cite></a> (which removed the field definition from the updated specification).</p></div></section><section id="auth.scheme.registration"><h3 id="rfc.section.18.5"><a href="##rfc.section.18.5">18.5.</a>&nbsp;<a href="##auth.scheme.registration">Authentication Scheme Registration</a></h3><div id="rfc.section.18.5.p.1"><p>IANA has updated the "Hypertext Transfer Protocol (HTTP) Authentication Scheme Registry" at <a href="https://www.iana.org/assignments/http-authschemes">https://www.iana.org/assignments/http-authschemes</a> with the registration procedure of <a href="##auth.scheme.registry" title="Authentication Scheme Registry">Section 16.4.1</a>. No authentication schemes are defined in this document.</p></div></section><section id="content.coding.registration"><h3 id="rfc.section.18.6"><a href="##rfc.section.18.6">18.6.</a>&nbsp;<a href="##content.coding.registration">Content Coding Registration</a></h3><div id="rfc.section.18.6.p.1"><p>IANA has updated the "HTTP Content Coding Registry" at <a href="https://www.iana.org/assignments/http-parameters/">https://www.iana.org/assignments/http-parameters/</a> with the registration procedure of <a href="##content.coding.registry" title="Content Coding Registry">Section 16.6.1</a> and the content coding names summarized in the table below.</p></div><div class="table table-condensed table-striped" id="iana.content.coding.registration.table"><table class="v3 tleft"><caption>Table 10</caption><thead><tr><th class="text-left">Name</th><th class="text-left">Description</th><th class="text-left">Section</th></tr></thead><tbody><tr><td class="text-left">compress</td><td class="text-left">UNIX "compress" data format <a href="##Welch" id="rfc.xref.Welch.2"><cite title="A Technique for High-Performance Data Compression">[Welch]</cite></a></td><td class="text-left"><a href="##compress.coding" title="Compress Coding">8.4.1.1</a></td></tr><tr><td class="text-left">deflate</td><td class="text-left">"deflate" compressed data (<a href="##RFC1951" id="rfc.xref.RFC1951.2"><cite title="DEFLATE Compressed Data Format Specification version 1.3">[RFC1951]</cite></a>) inside the "zlib" data format (<a href="##RFC1950" id="rfc.xref.RFC1950.2"><cite title="ZLIB Compressed Data Format Specification version 3.3">[RFC1950]</cite></a>)</td><td class="text-left"><a href="##deflate.coding" title="Deflate Coding">8.4.1.2</a></td></tr><tr><td class="text-left">gzip</td><td class="text-left">GZIP file format <a href="##RFC1952" id="rfc.xref.RFC1952.2"><cite title="GZIP file format specification version 4.3">[RFC1952]</cite></a></td><td class="text-left"><a href="##gzip.coding" title="Gzip Coding">8.4.1.3</a></td></tr><tr><td class="text-left">identity</td><td class="text-left">Reserved</td><td class="text-left"><a href="##field.accept-encoding" id="rfc.xref.field.accept-encoding.6" title="Accept-Encoding">12.5.3</a></td></tr><tr><td class="text-left">x-compress</td><td class="text-left">Deprecated (alias for compress)</td><td class="text-left"><a href="##compress.coding" title="Compress Coding">8.4.1.1</a></td></tr><tr><td class="text-left">x-gzip</td><td class="text-left">Deprecated (alias for gzip)</td><td class="text-left"><a href="##gzip.coding" title="Gzip Coding">8.4.1.3</a></td></tr></tbody></table></div></section><section id="range.unit.registration"><h3 id="rfc.section.18.7"><a href="##rfc.section.18.7">18.7.</a>&nbsp;<a href="##range.unit.registration">Range Unit Registration</a></h3><div id="rfc.section.18.7.p.1"><p>IANA has updated the "HTTP Range Unit Registry" at <a href="https://www.iana.org/assignments/http-parameters/">https://www.iana.org/assignments/http-parameters/</a> with the registration procedure of <a href="##range.unit.registry" title="Range Unit Registry">Section 16.5.1</a> and the range unit names summarized in the table below.</p></div><div class="table table-condensed table-striped" id="iana.range.units.table"><table class="v3 tleft"><caption>Table 11</caption><thead><tr><th class="text-left">Range Unit Name</th><th class="text-left">Description</th><th class="text-left">Section</th></tr></thead><tbody><tr><td class="text-left">bytes</td><td class="text-left">a range of octets</td><td class="text-left"><a href="##byte.ranges" title="Byte Ranges">14.1.2</a></td></tr><tr><td class="text-left">none</td><td class="text-left">reserved as keyword to indicate range requests are not supported</td><td class="text-left"><a href="##field.accept-ranges" id="rfc.xref.field.accept-ranges.3" title="Accept-Ranges">14.3</a></td></tr></tbody></table></div></section><section id="media.type.reg"><h3 id="rfc.section.18.8"><a href="##rfc.section.18.8">18.8.</a>&nbsp;<a href="##media.type.reg">Media Type Registration</a></h3><div id="rfc.section.18.8.p.1"><p>IANA has updated the "Media Types" registry at <a href="https://www.iana.org/assignments/media-types">https://www.iana.org/assignments/media-types</a> with the registration information in <a href="##multipart.byteranges" title="Media Type multipart/byteranges">Section 14.6</a> for the media type "multipart/byteranges".</p></div><div id="rfc.section.18.8.p.2"><p>IANA has updated the registry note about "q" parameters with a link to <a href="##field.accept" id="rfc.xref.field.accept.6" title="Accept">Section 12.5.1</a> of this document.</p></div></section><section id="port.reg"><h3 id="rfc.section.18.9"><a href="##rfc.section.18.9">18.9.</a>&nbsp;<a href="##port.reg">Port Registration</a></h3><div id="rfc.section.18.9.p.1" class="avoidbreakafter"><p>IANA has updated the "Service Name and Transport Protocol Port Number Registry" at <a href="https://www.iana.org/assignments/service-names-port-numbers/">https://www.iana.org/assignments/service-names-port-numbers/</a> for the services on ports 80 and 443 that use UDP or TCP to:</p></div><div id="rfc.section.18.9.p.2"><ol><li>use this document as "Reference", and</li><li>when currently unspecified, set "Assignee" to "IESG" and "Contact" to "IETF_Chair".</li></ol></div></section><section id="upgrade.token.registration"><h3 id="rfc.section.18.10"><a href="##rfc.section.18.10">18.10.</a>&nbsp;<a href="##upgrade.token.registration">Upgrade Token Registration</a></h3><div id="rfc.section.18.10.p.1"><p>IANA has updated the "Hypertext Transfer Protocol (HTTP) Upgrade Token Registry" at <a href="https://www.iana.org/assignments/http-upgrade-tokens">https://www.iana.org/assignments/http-upgrade-tokens</a> with the registration procedure described in <a href="##upgrade.token.registry" title="Upgrade Token Registry">Section 16.7</a> and the upgrade token names summarized in the following table.</p></div><div class="table table-condensed table-striped"><table class="v3 tleft"><caption>Table 12</caption><thead><tr><th class="text-left">Name</th><th class="text-left">Description</th><th class="text-left">Expected Version Tokens</th><th class="text-left">Section</th></tr></thead><tbody><tr><td class="text-left">HTTP</td><td class="text-left">Hypertext Transfer Protocol</td><td class="text-left">any DIGIT.DIGIT (e.g., "2.0")</td><td class="text-left"><a href="##protocol.version" title="Protocol Version">2.5</a></td></tr></tbody></table></div></section></section><section id="rfc.references"><h2 id="rfc.section.19"><a href="##rfc.section.19">19.</a> References</h2><section><div id="rfc.references.1"><h3 id="rfc.section.19.1"><a href="##rfc.section.19.1">19.1.</a> Normative References</h3><dl class="dl-horizontal"><dt id="CACHING">[CACHING]</dt><dd>Fielding, R., Ed., Nottingham, M., Ed., and J. Reschke, Ed., “<a href="https://www.rfc-editor.org/rfc/rfc9111.html">HTTP Caching</a>”, <a href="https://dx.doi.org/10.17487/RFC9111">DOI 10.17487/RFC9111</a>, June 2022.</dd><dt id="RFC1950">[RFC1950]</dt><dd>Deutsch, P. and J-L. Gailly, “<a href="https://www.rfc-editor.org/rfc/rfc1950.html">ZLIB Compressed Data Format Specification version 3.3</a>”, RFC 1950, <a href="https://dx.doi.org/10.17487/RFC1950">DOI 10.17487/RFC1950</a>, May 1996, &lt;<a href="https://www.rfc-editor.org/info/rfc1950">https://www.rfc-editor.org/info/rfc1950</a>&gt;.</dd><dt id="RFC1951">[RFC1951]</dt><dd>Deutsch, P., “<a href="https://www.rfc-editor.org/rfc/rfc1951.html">DEFLATE Compressed Data Format Specification version 1.3</a>”, RFC 1951, <a href="https://dx.doi.org/10.17487/RFC1951">DOI 10.17487/RFC1951</a>, May 1996, &lt;<a href="https://www.rfc-editor.org/info/rfc1951">https://www.rfc-editor.org/info/rfc1951</a>&gt;.</dd><dt id="RFC1952">[RFC1952]</dt><dd>Deutsch, P., “<a href="https://www.rfc-editor.org/rfc/rfc1952.html">GZIP file format specification version 4.3</a>”, RFC 1952, <a href="https://dx.doi.org/10.17487/RFC1952">DOI 10.17487/RFC1952</a>, May 1996, &lt;<a href="https://www.rfc-editor.org/info/rfc1952">https://www.rfc-editor.org/info/rfc1952</a>&gt;.</dd><dt id="RFC2046">[RFC2046]</dt><dd>Freed, N. and N. Borenstein, “<a href="https://www.rfc-editor.org/rfc/rfc2046.html">Multipurpose Internet Mail Extensions (MIME) Part Two: Media Types</a>”, RFC 2046, <a href="https://dx.doi.org/10.17487/RFC2046">DOI 10.17487/RFC2046</a>, November 1996, &lt;<a href="https://www.rfc-editor.org/info/rfc2046">https://www.rfc-editor.org/info/rfc2046</a>&gt;.</dd><dt id="RFC2119">[RFC2119]</dt><dd>Bradner, S., “<a href="https://www.rfc-editor.org/rfc/rfc2119.html">Key words for use in RFCs to Indicate Requirement Levels</a>”, <a href="https://www.rfc-editor.org/info/bcp14">BCP 14</a>, RFC 2119, <a href="https://dx.doi.org/10.17487/RFC2119">DOI 10.17487/RFC2119</a>, March 1997, &lt;<a href="https://www.rfc-editor.org/info/rfc2119">https://www.rfc-editor.org/info/rfc2119</a>&gt;.</dd><dt id="RFC4647">[RFC4647]</dt><dd>Phillips, A., Ed. and M. Davis, Ed., “<a href="https://www.rfc-editor.org/rfc/rfc4647.html">Matching of Language Tags</a>”, <a href="https://www.rfc-editor.org/info/bcp47">BCP 47</a>, RFC 4647, <a href="https://dx.doi.org/10.17487/RFC4647">DOI 10.17487/RFC4647</a>, September 2006, &lt;<a href="https://www.rfc-editor.org/info/rfc4647">https://www.rfc-editor.org/info/rfc4647</a>&gt;.</dd><dt id="RFC4648">[RFC4648]</dt><dd>Josefsson, S., “<a href="https://www.rfc-editor.org/rfc/rfc4648.html">The Base16, Base32, and Base64 Data Encodings</a>”, RFC 4648, <a href="https://dx.doi.org/10.17487/RFC4648">DOI 10.17487/RFC4648</a>, October 2006, &lt;<a href="https://www.rfc-editor.org/info/rfc4648">https://www.rfc-editor.org/info/rfc4648</a>&gt;.</dd><dt id="RFC5234">[RFC5234]</dt><dd>Crocker, D., Ed. and P. Overell, “<a href="https://www.rfc-editor.org/rfc/rfc5234.html">Augmented BNF for Syntax Specifications: ABNF</a>”, <a href="https://www.rfc-editor.org/info/std68">STD 68</a>, RFC 5234, <a href="https://dx.doi.org/10.17487/RFC5234">DOI 10.17487/RFC5234</a>, January 2008, &lt;<a href="https://www.rfc-editor.org/info/rfc5234">https://www.rfc-editor.org/info/rfc5234</a>&gt;.</dd><dt id="RFC5280">[RFC5280]</dt><dd>Cooper, D., Santesson, S., Farrell, S., Boeyen, S., Housley, R., and W. Polk, “<a href="https://www.rfc-editor.org/rfc/rfc5280.html">Internet X.509 Public Key Infrastructure Certificate and Certificate Revocation List (CRL) Profile</a>”, RFC 5280, <a href="https://dx.doi.org/10.17487/RFC5280">DOI 10.17487/RFC5280</a>, May 2008, &lt;<a href="https://www.rfc-editor.org/info/rfc5280">https://www.rfc-editor.org/info/rfc5280</a>&gt;.</dd><dt id="RFC5322">[RFC5322]</dt><dd>Resnick, P., Ed., “<a href="https://www.rfc-editor.org/rfc/rfc5322.html">Internet Message Format</a>”, RFC 5322, <a href="https://dx.doi.org/10.17487/RFC5322">DOI 10.17487/RFC5322</a>, October 2008, &lt;<a href="https://www.rfc-editor.org/info/rfc5322">https://www.rfc-editor.org/info/rfc5322</a>&gt;.</dd><dt id="RFC5646">[RFC5646]</dt><dd>Phillips, A., Ed. and M. Davis, Ed., “<a href="https://www.rfc-editor.org/rfc/rfc5646.html">Tags for Identifying Languages</a>”, <a href="https://www.rfc-editor.org/info/bcp47">BCP 47</a>, RFC 5646, <a href="https://dx.doi.org/10.17487/RFC5646">DOI 10.17487/RFC5646</a>, September 2009, &lt;<a href="https://www.rfc-editor.org/info/rfc5646">https://www.rfc-editor.org/info/rfc5646</a>&gt;.</dd><dt id="RFC6125">[RFC6125]</dt><dd>Saint-Andre, P. and J. Hodges, “<a href="https://www.rfc-editor.org/rfc/rfc6125.html">Representation and Verification of Domain-Based Application Service Identity within Internet Public Key Infrastructure Using X.509 (PKIX) Certificates in the Context of Transport Layer Security (TLS)</a>”, RFC 6125, <a href="https://dx.doi.org/10.17487/RFC6125">DOI 10.17487/RFC6125</a>, March 2011, &lt;<a href="https://www.rfc-editor.org/info/rfc6125">https://www.rfc-editor.org/info/rfc6125</a>&gt;.</dd><dt id="RFC6365">[RFC6365]</dt><dd>Hoffman, P. and J. Klensin, “<a href="https://www.rfc-editor.org/rfc/rfc6365.html">Terminology Used in Internationalization in the IETF</a>”, <a href="https://www.rfc-editor.org/info/bcp166">BCP 166</a>, RFC 6365, <a href="https://dx.doi.org/10.17487/RFC6365">DOI 10.17487/RFC6365</a>, September 2011, &lt;<a href="https://www.rfc-editor.org/info/rfc6365">https://www.rfc-editor.org/info/rfc6365</a>&gt;.</dd><dt id="RFC7405">[RFC7405]</dt><dd>Kyzivat, P., “<a href="https://www.rfc-editor.org/rfc/rfc7405.html">Case-Sensitive String Support in ABNF</a>”, RFC 7405, <a href="https://dx.doi.org/10.17487/RFC7405">DOI 10.17487/RFC7405</a>, December 2014, &lt;<a href="https://www.rfc-editor.org/info/rfc7405">https://www.rfc-editor.org/info/rfc7405</a>&gt;.</dd><dt id="RFC8174">[RFC8174]</dt><dd>Leiba, B., “<a href="https://www.rfc-editor.org/rfc/rfc8174.html">Ambiguity of Uppercase vs Lowercase in RFC 2119 Key Words</a>”, <a href="https://www.rfc-editor.org/info/bcp14">BCP 14</a>, RFC 8174, <a href="https://dx.doi.org/10.17487/RFC8174">DOI 10.17487/RFC8174</a>, May 2017, &lt;<a href="https://www.rfc-editor.org/info/rfc8174">https://www.rfc-editor.org/info/rfc8174</a>&gt;.</dd><dt id="TCP">[TCP]</dt><dd>Postel, J., “<a href="https://www.rfc-editor.org/rfc/rfc793.html">Transmission Control Protocol</a>”, <a href="https://www.rfc-editor.org/info/std7">STD 7</a>, RFC 793, <a href="https://dx.doi.org/10.17487/RFC0793">DOI 10.17487/RFC0793</a>, September 1981, &lt;<a href="https://www.rfc-editor.org/info/rfc793">https://www.rfc-editor.org/info/rfc793</a>&gt;.</dd><dt id="TLS13">[TLS13]</dt><dd>Rescorla, E., “<a href="https://www.rfc-editor.org/rfc/rfc8446.html">The Transport Layer Security (TLS) Protocol Version 1.3</a>”, RFC 8446, <a href="https://dx.doi.org/10.17487/RFC8446">DOI 10.17487/RFC8446</a>, August 2018, &lt;<a href="https://www.rfc-editor.org/info/rfc8446">https://www.rfc-editor.org/info/rfc8446</a>&gt;.</dd><dt id="URI">[URI]</dt><dd>Berners-Lee, T., Fielding, R., and L. Masinter, “<a href="https://www.rfc-editor.org/rfc/rfc3986.html">Uniform Resource Identifier (URI): Generic Syntax</a>”, <a href="https://www.rfc-editor.org/info/std66">STD 66</a>, RFC 3986, <a href="https://dx.doi.org/10.17487/RFC3986">DOI 10.17487/RFC3986</a>, January 2005, &lt;<a href="https://www.rfc-editor.org/info/rfc3986">https://www.rfc-editor.org/info/rfc3986</a>&gt;.</dd><dt id="USASCII">[USASCII]</dt><dd>American National Standards Institute, “Coded Character Set -- 7-bit American Standard Code for Information Interchange”, ANSI X3.4, 1986.</dd><dt id="Welch">[Welch]</dt><dd>Welch, T., “<a href="https://ieeexplore.ieee.org/document/1659158/">A Technique for High-Performance Data Compression</a>”, IEEE Computer 17(6), <a href="https://dx.doi.org/10.1109/MC.1984.1659158">DOI 10.1109/MC.1984.1659158</a>, June 1984, &lt;<a href="https://ieeexplore.ieee.org/document/1659158/">https://ieeexplore.ieee.org/document/1659158/</a>&gt;.</dd></dl></div></section><section><div id="rfc.references.2"><h3 id="rfc.section.19.2"><a href="##rfc.section.19.2">19.2.</a> Informative References</h3><dl class="dl-horizontal"><dt id="ALTSVC">[ALTSVC]</dt><dd>Nottingham, M., McManus, P., and J. Reschke, “<a href="https://www.rfc-editor.org/rfc/rfc7838.html">HTTP Alternative Services</a>”, RFC 7838, <a href="https://dx.doi.org/10.17487/RFC7838">DOI 10.17487/RFC7838</a>, April 2016, &lt;<a href="https://www.rfc-editor.org/info/rfc7838">https://www.rfc-editor.org/info/rfc7838</a>&gt;.</dd><dt id="BCP13">[BCP13]</dt><dd id="RFC4289">Freed, N. and J. Klensin, “<a href="https://www.rfc-editor.org/rfc/rfc4289.html">Multipurpose Internet Mail Extensions (MIME) Part Four: Registration Procedures</a>”, <a href="https://www.rfc-editor.org/info/bcp13">BCP 13</a>, RFC 4289, <a href="https://dx.doi.org/10.17487/RFC4289">DOI 10.17487/RFC4289</a>, December 2005.</dd><dd id="RFC6838">Freed, N., Klensin, J., and T. Hansen, “<a href="https://www.rfc-editor.org/rfc/rfc6838.html">Media Type Specifications and Registration Procedures</a>”, <a href="https://www.rfc-editor.org/info/bcp13">BCP 13</a>, RFC 6838, <a href="https://dx.doi.org/10.17487/RFC6838">DOI 10.17487/RFC6838</a>, January 2013.</dd><dd>&lt;<a href="https://www.rfc-editor.org/info/bcp13">https://www.rfc-editor.org/info/bcp13</a>&gt;</dd><dt id="BCP178">[BCP178]</dt><dd id="RFC6648">Saint-Andre, P., Crocker, D., and M. Nottingham, “<a href="https://www.rfc-editor.org/rfc/rfc6648.html">Deprecating the "X-" Prefix and Similar Constructs in Application Protocols</a>”, <a href="https://www.rfc-editor.org/info/bcp178">BCP 178</a>, RFC 6648, <a href="https://dx.doi.org/10.17487/RFC6648">DOI 10.17487/RFC6648</a>, June 2012.</dd><dd>&lt;<a href="https://www.rfc-editor.org/info/bcp178">https://www.rfc-editor.org/info/bcp178</a>&gt;</dd><dt id="BCP35">[BCP35]</dt><dd id="RFC7595">Thaler, D., Ed., Hansen, T., and T. Hardie, “<a href="https://www.rfc-editor.org/rfc/rfc7595.html">Guidelines and Registration Procedures for URI Schemes</a>”, <a href="https://www.rfc-editor.org/info/bcp35">BCP 35</a>, RFC 7595, <a href="https://dx.doi.org/10.17487/RFC7595">DOI 10.17487/RFC7595</a>, June 2015.</dd><dd>&lt;<a href="https://www.rfc-editor.org/info/bcp35">https://www.rfc-editor.org/info/bcp35</a>&gt;</dd><dt id="BREACH">[BREACH]</dt><dd>Gluck, Y., Harris, N., and A. Prado, “<a href="http://breachattack.com/resources/BREACH%20-%20SSL,%20gone%20in%2030%20seconds.pdf">BREACH: Reviving the CRIME Attack</a>”, July 2013, &lt;<a href="http://breachattack.com/resources/BREACH%20-%20SSL,%20gone%20in%2030%20seconds.pdf">http://breachattack.com/resources/BREACH%20-%20SSL,%20gone%20in%2030%20seconds.pdf</a>&gt;.</dd><dt id="Bujlow">[Bujlow]</dt><dd>Bujlow, T., Carela-Español, V., Solé-Pareta, J., and P. Barlet-Ros, “A Survey on Web Tracking: Mechanisms, Implications, and Defenses”, <a href="https://dx.doi.org/10.1109/JPROC.2016.2637878">DOI 10.1109/JPROC.2016.2637878</a>, In Proceedings of the IEEE 105(8), August 2017.</dd><dt id="COOKIE">[COOKIE]</dt><dd>Barth, A., “<a href="https://www.rfc-editor.org/rfc/rfc6265.html">HTTP State Management Mechanism</a>”, RFC 6265, <a href="https://dx.doi.org/10.17487/RFC6265">DOI 10.17487/RFC6265</a>, April 2011, &lt;<a href="https://www.rfc-editor.org/info/rfc6265">https://www.rfc-editor.org/info/rfc6265</a>&gt;.</dd><dt id="Err1912">[Err1912]</dt><dd>RFC Errata, <a href="https://www.rfc-editor.org/errata/eid1912">Erratum ID 1912</a>, RFC 2978, &lt;<a href="https://www.rfc-editor.org/errata/eid1912">https://www.rfc-editor.org/errata/eid1912</a>&gt;.</dd><dt id="Err5433">[Err5433]</dt><dd>RFC Errata, <a href="https://www.rfc-editor.org/errata/eid5433">Erratum ID 5433</a>, RFC 2978, &lt;<a href="https://www.rfc-editor.org/errata/eid5433">https://www.rfc-editor.org/errata/eid5433</a>&gt;.</dd><dt id="Georgiev">[Georgiev]</dt><dd>Georgiev, M., Iyengar, S., Jana, S., Anubhai, R., Boneh, D., and V. Shmatikov, “The Most Dangerous Code in the World: Validating SSL Certificates in Non-Browser Software”, <a href="https://dx.doi.org/10.1145/2382196.2382204">DOI 10.1145/2382196.2382204</a>, In Proceedings of the 2012 ACM Conference on Computer and Communications Security (CCS '12), pp. 38-49, October 2012.</dd><dt id="HPACK">[HPACK]</dt><dd>Peon, R. and H. Ruellan, “<a href="https://www.rfc-editor.org/rfc/rfc7541.html">HPACK: Header Compression for HTTP/2</a>”, RFC 7541, <a href="https://dx.doi.org/10.17487/RFC7541">DOI 10.17487/RFC7541</a>, May 2015, &lt;<a href="https://www.rfc-editor.org/info/rfc7541">https://www.rfc-editor.org/info/rfc7541</a>&gt;.</dd><dt id="HTTP10">[HTTP/1.0]</dt><dd>Berners-Lee, T., Fielding, R., and H. Frystyk, “<a href="https://www.rfc-editor.org/rfc/rfc1945.html">Hypertext Transfer Protocol -- HTTP/1.0</a>”, RFC 1945, <a href="https://dx.doi.org/10.17487/RFC1945">DOI 10.17487/RFC1945</a>, May 1996, &lt;<a href="https://www.rfc-editor.org/info/rfc1945">https://www.rfc-editor.org/info/rfc1945</a>&gt;.</dd><dt id="HTTP11">[HTTP/1.1]</dt><dd>Fielding, R., Ed., Nottingham, M., Ed., and J. Reschke, Ed., “<a href="https://www.rfc-editor.org/rfc/rfc9112.html">HTTP/1.1</a>”, <a href="https://dx.doi.org/10.17487/RFC9112">DOI 10.17487/RFC9112</a>, June 2022.</dd><dt id="HTTP2">[HTTP/2]</dt><dd>Thomson, M., Ed. and C. Benfield, Ed., “<a href="https://www.rfc-editor.org/rfc/rfc9113.html">HTTP/2</a>”, RFC 9113, <a href="https://dx.doi.org/10.17487/RFC9113">DOI 10.17487/RFC9113</a>, June 2022, &lt;<a href="https://www.rfc-editor.org/info/rfc9113">https://www.rfc-editor.org/info/rfc9113</a>&gt;.</dd><dt id="HTTP3">[HTTP/3]</dt><dd>Bishop, M., Ed., “<a href="https://www.rfc-editor.org/rfc/rfc9114.html">HTTP/3</a>”, RFC 9114, <a href="https://dx.doi.org/10.17487/RFC9114">DOI 10.17487/RFC9114</a>, June 2022, &lt;<a href="https://www.rfc-editor.org/info/rfc9114">https://www.rfc-editor.org/info/rfc9114</a>&gt;.</dd><dt id="ISO-8859-1">[ISO-8859-1]</dt><dd>International Organization for Standardization, “Information technology -- 8-bit single-byte coded graphic character sets -- Part 1: Latin alphabet No. 1”, ISO/IEC 8859-1:1998, 1998.</dd><dt id="Kri2001">[Kri2001]</dt><dd>Kristol, D., “<a href="http://arxiv.org/abs/cs.SE/0105018">HTTP Cookies: Standards, Privacy, and Politics</a>”, ACM Transactions on Internet Technology 1(2), November 2001, &lt;<a href="http://arxiv.org/abs/cs.SE/0105018">http://arxiv.org/abs/cs.SE/0105018</a>&gt;.</dd><dt id="OWASP">[OWASP]</dt><dd><a href="https://www.owasp.org/">The Open Web Application Security Project</a>, &lt;<a href="https://www.owasp.org/">https://www.owasp.org/</a>&gt;.</dd><dt id="REST">[REST]</dt><dd>Fielding, R., “<a href="https://roy.gbiv.com/pubs/dissertation/top.htm">Architectural Styles and the Design of Network-based Software Architectures</a>”, Doctoral Dissertation, University of California, Irvine, September 2000, &lt;<a href="https://roy.gbiv.com/pubs/dissertation/top.htm">https://roy.gbiv.com/pubs/dissertation/top.htm</a>&gt;.</dd><dt id="RFC1919">[RFC1919]</dt><dd>Chatel, M., “<a href="https://www.rfc-editor.org/rfc/rfc1919.html">Classical versus Transparent IP Proxies</a>”, RFC 1919, <a href="https://dx.doi.org/10.17487/RFC1919">DOI 10.17487/RFC1919</a>, March 1996, &lt;<a href="https://www.rfc-editor.org/info/rfc1919">https://www.rfc-editor.org/info/rfc1919</a>&gt;.</dd><dt id="RFC2047">[RFC2047]</dt><dd>Moore, K., “<a href="https://www.rfc-editor.org/rfc/rfc2047.html">MIME (Multipurpose Internet Mail Extensions) Part Three: Message Header Extensions for Non-ASCII Text</a>”, RFC 2047, <a href="https://dx.doi.org/10.17487/RFC2047">DOI 10.17487/RFC2047</a>, November 1996, &lt;<a href="https://www.rfc-editor.org/info/rfc2047">https://www.rfc-editor.org/info/rfc2047</a>&gt;.</dd><dt id="RFC2068">[RFC2068]</dt><dd>Fielding, R., Gettys, J., Mogul, J., Frystyk, H., and T. Berners-Lee, “<a href="https://www.rfc-editor.org/rfc/rfc2068.html">Hypertext Transfer Protocol -- HTTP/1.1</a>”, RFC 2068, <a href="https://dx.doi.org/10.17487/RFC2068">DOI 10.17487/RFC2068</a>, January 1997, &lt;<a href="https://www.rfc-editor.org/info/rfc2068">https://www.rfc-editor.org/info/rfc2068</a>&gt;.</dd><dt id="RFC2145">[RFC2145]</dt><dd>Mogul, J., Fielding, R., Gettys, J., and H. Frystyk, “<a href="https://www.rfc-editor.org/rfc/rfc2145.html">Use and Interpretation of HTTP Version Numbers</a>”, RFC 2145, <a href="https://dx.doi.org/10.17487/RFC2145">DOI 10.17487/RFC2145</a>, May 1997, &lt;<a href="https://www.rfc-editor.org/info/rfc2145">https://www.rfc-editor.org/info/rfc2145</a>&gt;.</dd><dt id="RFC2295">[RFC2295]</dt><dd>Holtman, K. and A. Mutz, “<a href="https://www.rfc-editor.org/rfc/rfc2295.html">Transparent Content Negotiation in HTTP</a>”, RFC 2295, <a href="https://dx.doi.org/10.17487/RFC2295">DOI 10.17487/RFC2295</a>, March 1998, &lt;<a href="https://www.rfc-editor.org/info/rfc2295">https://www.rfc-editor.org/info/rfc2295</a>&gt;.</dd><dt id="RFC2324">[RFC2324]</dt><dd>Masinter, L., “<a href="https://www.rfc-editor.org/rfc/rfc2324.html">Hyper Text Coffee Pot Control Protocol (HTCPCP/1.0)</a>”, RFC 2324, <a href="https://dx.doi.org/10.17487/RFC2324">DOI 10.17487/RFC2324</a>, 1 April 1998, &lt;<a href="https://www.rfc-editor.org/info/rfc2324">https://www.rfc-editor.org/info/rfc2324</a>&gt;.</dd><dt id="RFC2557">[RFC2557]</dt><dd>Palme, J., Hopmann, A., and N. Shelness, “<a href="https://www.rfc-editor.org/rfc/rfc2557.html">MIME Encapsulation of Aggregate Documents, such as HTML (MHTML)</a>”, RFC 2557, <a href="https://dx.doi.org/10.17487/RFC2557">DOI 10.17487/RFC2557</a>, March 1999, &lt;<a href="https://www.rfc-editor.org/info/rfc2557">https://www.rfc-editor.org/info/rfc2557</a>&gt;.</dd><dt id="RFC2616">[RFC2616]</dt><dd>Fielding, R., Gettys, J., Mogul, J., Frystyk, H., Masinter, L., Leach, P., and T. Berners-Lee, “<a href="https://www.rfc-editor.org/rfc/rfc2616.html">Hypertext Transfer Protocol -- HTTP/1.1</a>”, RFC 2616, <a href="https://dx.doi.org/10.17487/RFC2616">DOI 10.17487/RFC2616</a>, June 1999, &lt;<a href="https://www.rfc-editor.org/info/rfc2616">https://www.rfc-editor.org/info/rfc2616</a>&gt;.</dd><dt id="RFC2617">[RFC2617]</dt><dd>Franks, J., Hallam-Baker, P., Hostetler, J., Lawrence, S., Leach, P., Luotonen, A., and L. Stewart, “<a href="https://www.rfc-editor.org/rfc/rfc2617.html">HTTP Authentication: Basic and Digest Access Authentication</a>”, RFC 2617, <a href="https://dx.doi.org/10.17487/RFC2617">DOI 10.17487/RFC2617</a>, June 1999, &lt;<a href="https://www.rfc-editor.org/info/rfc2617">https://www.rfc-editor.org/info/rfc2617</a>&gt;.</dd><dt id="RFC2774">[RFC2774]</dt><dd>Nielsen, H., Leach, P., and S. Lawrence, “<a href="https://www.rfc-editor.org/rfc/rfc2774.html">An HTTP Extension Framework</a>”, RFC 2774, <a href="https://dx.doi.org/10.17487/RFC2774">DOI 10.17487/RFC2774</a>, February 2000, &lt;<a href="https://www.rfc-editor.org/info/rfc2774">https://www.rfc-editor.org/info/rfc2774</a>&gt;.</dd><dt id="RFC2818">[RFC2818]</dt><dd>Rescorla, E., “<a href="https://www.rfc-editor.org/rfc/rfc2818.html">HTTP Over TLS</a>”, RFC 2818, <a href="https://dx.doi.org/10.17487/RFC2818">DOI 10.17487/RFC2818</a>, May 2000, &lt;<a href="https://www.rfc-editor.org/info/rfc2818">https://www.rfc-editor.org/info/rfc2818</a>&gt;.</dd><dt id="RFC2978">[RFC2978]</dt><dd>Freed, N. and J. Postel, “<a href="https://www.rfc-editor.org/rfc/rfc2978.html">IANA Charset Registration Procedures</a>”, <a href="https://www.rfc-editor.org/info/bcp19">BCP 19</a>, RFC 2978, <a href="https://dx.doi.org/10.17487/RFC2978">DOI 10.17487/RFC2978</a>, October 2000, &lt;<a href="https://www.rfc-editor.org/info/rfc2978">https://www.rfc-editor.org/info/rfc2978</a>&gt;.</dd><dt id="RFC3040">[RFC3040]</dt><dd>Cooper, I., Melve, I., and G. Tomlinson, “<a href="https://www.rfc-editor.org/rfc/rfc3040.html">Internet Web Replication and Caching Taxonomy</a>”, RFC 3040, <a href="https://dx.doi.org/10.17487/RFC3040">DOI 10.17487/RFC3040</a>, January 2001, &lt;<a href="https://www.rfc-editor.org/info/rfc3040">https://www.rfc-editor.org/info/rfc3040</a>&gt;.</dd><dt id="RFC3864">[RFC3864]</dt><dd>Klyne, G., Nottingham, M., and J. Mogul, “<a href="https://www.rfc-editor.org/rfc/rfc3864.html">Registration Procedures for Message Header Fields</a>”, <a href="https://www.rfc-editor.org/info/bcp90">BCP 90</a>, RFC 3864, <a href="https://dx.doi.org/10.17487/RFC3864">DOI 10.17487/RFC3864</a>, September 2004, &lt;<a href="https://www.rfc-editor.org/info/rfc3864">https://www.rfc-editor.org/info/rfc3864</a>&gt;.</dd><dt id="RFC3875">[RFC3875]</dt><dd>Robinson, D. and K. Coar, “<a href="https://www.rfc-editor.org/rfc/rfc3875.html">The Common Gateway Interface (CGI) Version 1.1</a>”, RFC 3875, <a href="https://dx.doi.org/10.17487/RFC3875">DOI 10.17487/RFC3875</a>, October 2004, &lt;<a href="https://www.rfc-editor.org/info/rfc3875">https://www.rfc-editor.org/info/rfc3875</a>&gt;.</dd><dt id="RFC4033">[RFC4033]</dt><dd>Arends, R., Austein, R., Larson, M., Massey, D., and S. Rose, “<a href="https://www.rfc-editor.org/rfc/rfc4033.html">DNS Security Introduction and Requirements</a>”, RFC 4033, <a href="https://dx.doi.org/10.17487/RFC4033">DOI 10.17487/RFC4033</a>, March 2005, &lt;<a href="https://www.rfc-editor.org/info/rfc4033">https://www.rfc-editor.org/info/rfc4033</a>&gt;.</dd><dt id="RFC4559">[RFC4559]</dt><dd>Jaganathan, K., Zhu, L., and J. Brezak, “<a href="https://www.rfc-editor.org/rfc/rfc4559.html">SPNEGO-based Kerberos and NTLM HTTP Authentication in Microsoft Windows</a>”, RFC 4559, <a href="https://dx.doi.org/10.17487/RFC4559">DOI 10.17487/RFC4559</a>, June 2006, &lt;<a href="https://www.rfc-editor.org/info/rfc4559">https://www.rfc-editor.org/info/rfc4559</a>&gt;.</dd><dt id="RFC5789">[RFC5789]</dt><dd>Dusseault, L. and J. Snell, “<a href="https://www.rfc-editor.org/rfc/rfc5789.html">PATCH Method for HTTP</a>”, RFC 5789, <a href="https://dx.doi.org/10.17487/RFC5789">DOI 10.17487/RFC5789</a>, March 2010, &lt;<a href="https://www.rfc-editor.org/info/rfc5789">https://www.rfc-editor.org/info/rfc5789</a>&gt;.</dd><dt id="RFC5905">[RFC5905]</dt><dd>Mills, D., Martin, J., Ed., Burbank, J., and W. Kasch, “<a href="https://www.rfc-editor.org/rfc/rfc5905.html">Network Time Protocol Version 4: Protocol and Algorithms Specification</a>”, RFC 5905, <a href="https://dx.doi.org/10.17487/RFC5905">DOI 10.17487/RFC5905</a>, June 2010, &lt;<a href="https://www.rfc-editor.org/info/rfc5905">https://www.rfc-editor.org/info/rfc5905</a>&gt;.</dd><dt id="RFC6454">[RFC6454]</dt><dd>Barth, A., “<a href="https://www.rfc-editor.org/rfc/rfc6454.html">The Web Origin Concept</a>”, RFC 6454, <a href="https://dx.doi.org/10.17487/RFC6454">DOI 10.17487/RFC6454</a>, December 2011, &lt;<a href="https://www.rfc-editor.org/info/rfc6454">https://www.rfc-editor.org/info/rfc6454</a>&gt;.</dd><dt id="RFC6585">[RFC6585]</dt><dd>Nottingham, M. and R. Fielding, “<a href="https://www.rfc-editor.org/rfc/rfc6585.html">Additional HTTP Status Codes</a>”, RFC 6585, <a href="https://dx.doi.org/10.17487/RFC6585">DOI 10.17487/RFC6585</a>, April 2012, &lt;<a href="https://www.rfc-editor.org/info/rfc6585">https://www.rfc-editor.org/info/rfc6585</a>&gt;.</dd><dt id="RFC7230">[RFC7230]</dt><dd>Fielding, R., Ed. and J. Reschke, Ed., “<a href="https://www.rfc-editor.org/rfc/rfc7230.html">Hypertext Transfer Protocol (HTTP/1.1): Message Syntax and Routing</a>”, RFC 7230, <a href="https://dx.doi.org/10.17487/RFC7230">DOI 10.17487/RFC7230</a>, June 2014, &lt;<a href="https://www.rfc-editor.org/info/rfc7230">https://www.rfc-editor.org/info/rfc7230</a>&gt;.</dd><dt id="RFC7231">[RFC7231]</dt><dd>Fielding, R., Ed. and J. Reschke, Ed., “<a href="https://www.rfc-editor.org/rfc/rfc7231.html">Hypertext Transfer Protocol (HTTP/1.1): Semantics and Content</a>”, RFC 7231, <a href="https://dx.doi.org/10.17487/RFC7231">DOI 10.17487/RFC7231</a>, June 2014, &lt;<a href="https://www.rfc-editor.org/info/rfc7231">https://www.rfc-editor.org/info/rfc7231</a>&gt;.</dd><dt id="RFC7232">[RFC7232]</dt><dd>Fielding, R., Ed. and J. Reschke, Ed., “<a href="https://www.rfc-editor.org/rfc/rfc7232.html">Hypertext Transfer Protocol (HTTP/1.1): Conditional Requests</a>”, RFC 7232, <a href="https://dx.doi.org/10.17487/RFC7232">DOI 10.17487/RFC7232</a>, June 2014, &lt;<a href="https://www.rfc-editor.org/info/rfc7232">https://www.rfc-editor.org/info/rfc7232</a>&gt;.</dd><dt id="RFC7233">[RFC7233]</dt><dd>Fielding, R., Ed., Lafon, Y., Ed., and J. Reschke, Ed., “<a href="https://www.rfc-editor.org/rfc/rfc7233.html">Hypertext Transfer Protocol (HTTP/1.1): Range Requests</a>”, RFC 7233, <a href="https://dx.doi.org/10.17487/RFC7233">DOI 10.17487/RFC7233</a>, June 2014, &lt;<a href="https://www.rfc-editor.org/info/rfc7233">https://www.rfc-editor.org/info/rfc7233</a>&gt;.</dd><dt id="RFC7234">[RFC7234]</dt><dd>Fielding, R., Ed., Nottingham, M., Ed., and J. Reschke, Ed., “<a href="https://www.rfc-editor.org/rfc/rfc7234.html">Hypertext Transfer Protocol (HTTP/1.1): Caching</a>”, RFC 7234, <a href="https://dx.doi.org/10.17487/RFC7234">DOI 10.17487/RFC7234</a>, June 2014, &lt;<a href="https://www.rfc-editor.org/info/rfc7234">https://www.rfc-editor.org/info/rfc7234</a>&gt;.</dd><dt id="RFC7235">[RFC7235]</dt><dd>Fielding, R., Ed. and J. Reschke, Ed., “<a href="https://www.rfc-editor.org/rfc/rfc7235.html">Hypertext Transfer Protocol (HTTP/1.1): Authentication</a>”, RFC 7235, <a href="https://dx.doi.org/10.17487/RFC7235">DOI 10.17487/RFC7235</a>, June 2014, &lt;<a href="https://www.rfc-editor.org/info/rfc7235">https://www.rfc-editor.org/info/rfc7235</a>&gt;.</dd><dt id="RFC7538">[RFC7538]</dt><dd>Reschke, J., “<a href="https://www.rfc-editor.org/rfc/rfc7538.html">The Hypertext Transfer Protocol Status Code 308 (Permanent Redirect)</a>”, RFC 7538, <a href="https://dx.doi.org/10.17487/RFC7538">DOI 10.17487/RFC7538</a>, April 2015, &lt;<a href="https://www.rfc-editor.org/info/rfc7538">https://www.rfc-editor.org/info/rfc7538</a>&gt;.</dd><dt id="RFC7540">[RFC7540]</dt><dd>Belshe, M., Peon, R., and M. Thomson, Ed., “<a href="https://www.rfc-editor.org/rfc/rfc7540.html">Hypertext Transfer Protocol Version 2 (HTTP/2)</a>”, RFC 7540, <a href="https://dx.doi.org/10.17487/RFC7540">DOI 10.17487/RFC7540</a>, May 2015, &lt;<a href="https://www.rfc-editor.org/info/rfc7540">https://www.rfc-editor.org/info/rfc7540</a>&gt;.</dd><dt id="RFC7578">[RFC7578]</dt><dd>Masinter, L., “<a href="https://www.rfc-editor.org/rfc/rfc7578.html">Returning Values from Forms: multipart/form-data</a>”, RFC 7578, <a href="https://dx.doi.org/10.17487/RFC7578">DOI 10.17487/RFC7578</a>, July 2015, &lt;<a href="https://www.rfc-editor.org/info/rfc7578">https://www.rfc-editor.org/info/rfc7578</a>&gt;.</dd><dt id="RFC7615">[RFC7615]</dt><dd>Reschke, J., “<a href="https://www.rfc-editor.org/rfc/rfc7615.html">HTTP Authentication-Info and Proxy-Authentication-Info Response Header Fields</a>”, RFC 7615, <a href="https://dx.doi.org/10.17487/RFC7615">DOI 10.17487/RFC7615</a>, September 2015, &lt;<a href="https://www.rfc-editor.org/info/rfc7615">https://www.rfc-editor.org/info/rfc7615</a>&gt;.</dd><dt id="RFC7616">[RFC7616]</dt><dd>Shekh-Yusef, R., Ed., Ahrens, D., and S. Bremer, “<a href="https://www.rfc-editor.org/rfc/rfc7616.html">HTTP Digest Access Authentication</a>”, RFC 7616, <a href="https://dx.doi.org/10.17487/RFC7616">DOI 10.17487/RFC7616</a>, September 2015, &lt;<a href="https://www.rfc-editor.org/info/rfc7616">https://www.rfc-editor.org/info/rfc7616</a>&gt;.</dd><dt id="RFC7617">[RFC7617]</dt><dd>Reschke, J., “<a href="https://www.rfc-editor.org/rfc/rfc7617.html">The 'Basic' HTTP Authentication Scheme</a>”, RFC 7617, <a href="https://dx.doi.org/10.17487/RFC7617">DOI 10.17487/RFC7617</a>, September 2015, &lt;<a href="https://www.rfc-editor.org/info/rfc7617">https://www.rfc-editor.org/info/rfc7617</a>&gt;.</dd><dt id="RFC7694">[RFC7694]</dt><dd>Reschke, J., “<a href="https://www.rfc-editor.org/rfc/rfc7694.html">Hypertext Transfer Protocol (HTTP) Client-Initiated Content-Encoding</a>”, RFC 7694, <a href="https://dx.doi.org/10.17487/RFC7694">DOI 10.17487/RFC7694</a>, November 2015, &lt;<a href="https://www.rfc-editor.org/info/rfc7694">https://www.rfc-editor.org/info/rfc7694</a>&gt;.</dd><dt id="RFC8126">[RFC8126]</dt><dd>Cotton, M., Leiba, B., and T. Narten, “<a href="https://www.rfc-editor.org/rfc/rfc8126.html">Guidelines for Writing an IANA Considerations Section in RFCs</a>”, <a href="https://www.rfc-editor.org/info/bcp26">BCP 26</a>, RFC 8126, <a href="https://dx.doi.org/10.17487/RFC8126">DOI 10.17487/RFC8126</a>, June 2017, &lt;<a href="https://www.rfc-editor.org/info/rfc8126">https://www.rfc-editor.org/info/rfc8126</a>&gt;.</dd><dt id="RFC8187">[RFC8187]</dt><dd>Reschke, J., “<a href="https://www.rfc-editor.org/rfc/rfc8187.html">Indicating Character Encoding and Language for HTTP Header Field Parameters</a>”, RFC 8187, <a href="https://dx.doi.org/10.17487/RFC8187">DOI 10.17487/RFC8187</a>, September 2017, &lt;<a href="https://www.rfc-editor.org/info/rfc8187">https://www.rfc-editor.org/info/rfc8187</a>&gt;.</dd><dt id="RFC8246">[RFC8246]</dt><dd>McManus, P., “<a href="https://www.rfc-editor.org/rfc/rfc8246.html">HTTP Immutable Responses</a>”, RFC 8246, <a href="https://dx.doi.org/10.17487/RFC8246">DOI 10.17487/RFC8246</a>, September 2017, &lt;<a href="https://www.rfc-editor.org/info/rfc8246">https://www.rfc-editor.org/info/rfc8246</a>&gt;.</dd><dt id="RFC8288">[RFC8288]</dt><dd>Nottingham, M., “<a href="https://www.rfc-editor.org/rfc/rfc8288.html">Web Linking</a>”, RFC 8288, <a href="https://dx.doi.org/10.17487/RFC8288">DOI 10.17487/RFC8288</a>, October 2017, &lt;<a href="https://www.rfc-editor.org/info/rfc8288">https://www.rfc-editor.org/info/rfc8288</a>&gt;.</dd><dt id="RFC8336">[RFC8336]</dt><dd>Nottingham, M. and E. Nygren, “<a href="https://www.rfc-editor.org/rfc/rfc8336.html">The ORIGIN HTTP/2 Frame</a>”, RFC 8336, <a href="https://dx.doi.org/10.17487/RFC8336">DOI 10.17487/RFC8336</a>, March 2018, &lt;<a href="https://www.rfc-editor.org/info/rfc8336">https://www.rfc-editor.org/info/rfc8336</a>&gt;.</dd><dt id="RFC8615">[RFC8615]</dt><dd>Nottingham, M., “<a href="https://www.rfc-editor.org/rfc/rfc8615.html">Well-Known Uniform Resource Identifiers (URIs)</a>”, RFC 8615, <a href="https://dx.doi.org/10.17487/RFC8615">DOI 10.17487/RFC8615</a>, May 2019, &lt;<a href="https://www.rfc-editor.org/info/rfc8615">https://www.rfc-editor.org/info/rfc8615</a>&gt;.</dd><dt id="RFC8941">[RFC8941]</dt><dd>Nottingham, M. and P-H. Kamp, “<a href="https://www.rfc-editor.org/rfc/rfc8941.html">Structured Field Values for HTTP</a>”, RFC 8941, <a href="https://dx.doi.org/10.17487/RFC8941">DOI 10.17487/RFC8941</a>, February 2021, &lt;<a href="https://www.rfc-editor.org/info/rfc8941">https://www.rfc-editor.org/info/rfc8941</a>&gt;.</dd><dt id="Sniffing">[Sniffing]</dt><dd>WHATWG, “<a href="https://mimesniff.spec.whatwg.org/">MIME Sniffing</a>”, &lt;<a href="https://mimesniff.spec.whatwg.org/">https://mimesniff.spec.whatwg.org</a>&gt;.</dd><dt id="WEBDAV">[WEBDAV]</dt><dd>Dusseault, L., Ed., “<a href="https://www.rfc-editor.org/rfc/rfc4918.html">HTTP Extensions for Web Distributed Authoring and Versioning (WebDAV)</a>”, RFC 4918, <a href="https://dx.doi.org/10.17487/RFC4918">DOI 10.17487/RFC4918</a>, June 2007, &lt;<a href="https://www.rfc-editor.org/info/rfc4918">https://www.rfc-editor.org/info/rfc4918</a>&gt;.</dd></dl></div></section></section><section id="collected.abnf"><h2 id="rfc.section.A" class="np"><a href="##rfc.section.A">Appendix A.</a>&nbsp;<a href="##collected.abnf">Collected ABNF</a></h2><div id="rfc.section.A.p.1"><p>In the collected ABNF below, list rules are expanded per <a href="##abnf.extension" title="Lists (#rule ABNF Extension)">Section 5.6.1</a>.</p></div><div id="rfc.section.A.p.2"><pre class="inline prettyprint lang-ietf_abnf prettyprinted" style=""><a href="##field.accept" class="smpl"><span class="typ">Accept</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="pun">[</span><span class="pln"> </span><span class="pun">(</span><span class="pln"> </span><span class="typ">media-range</span><span class="pln"> </span><span class="pun">[</span><span class="pln"> </span><span class="typ">weight</span><span class="pln"> </span><span class="pun">]</span><span class="pln"> </span><span class="pun">)</span><span class="pln"> </span><span class="pun">*(</span><span class="pln"> </span><span class="typ">OWS</span><span class="pln"> </span><span class="str">","</span><span class="pln"> </span><span class="typ">OWS</span><span class="pln"> </span><span class="pun">(</span><span class="pln"> </span><span class="typ">media-range</span><span class="pln"> </span><span class="pun">[</span><span class="pln">
 </span><span class="typ">weight</span><span class="pln"> </span><span class="pun">]</span><span class="pln"> </span><span class="pun">)</span><span class="pln"> </span><span class="pun">)</span><span class="pln"> </span><span class="pun">]</span><span class="pln">
</span><a href="##field.accept-charset" class="smpl"><span class="typ">Accept-Charset</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="pun">[</span><span class="pln"> </span><span class="pun">(</span><span class="pln"> </span><span class="pun">(</span><span class="pln"> </span><span class="typ">token</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="str">"*"</span><span class="pln"> </span><span class="pun">)</span><span class="pln"> </span><span class="pun">[</span><span class="pln"> </span><span class="typ">weight</span><span class="pln"> </span><span class="pun">]</span><span class="pln"> </span><span class="pun">)</span><span class="pln"> </span><span class="pun">*(</span><span class="pln"> </span><span class="typ">OWS</span><span class="pln"> </span><span class="str">","</span><span class="pln"> </span><span class="typ">OWS</span><span class="pln"> </span><span class="pun">(</span><span class="pln"> </span><span class="pun">(</span><span class="pln">
 </span><span class="typ">token</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="str">"*"</span><span class="pln"> </span><span class="pun">)</span><span class="pln"> </span><span class="pun">[</span><span class="pln"> </span><span class="typ">weight</span><span class="pln"> </span><span class="pun">]</span><span class="pln"> </span><span class="pun">)</span><span class="pln"> </span><span class="pun">)</span><span class="pln"> </span><span class="pun">]</span><span class="pln">
</span><a href="##field.accept-encoding" class="smpl"><span class="typ">Accept-Encoding</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="pun">[</span><span class="pln"> </span><span class="pun">(</span><span class="pln"> </span><span class="typ">codings</span><span class="pln"> </span><span class="pun">[</span><span class="pln"> </span><span class="typ">weight</span><span class="pln"> </span><span class="pun">]</span><span class="pln"> </span><span class="pun">)</span><span class="pln"> </span><span class="pun">*(</span><span class="pln"> </span><span class="typ">OWS</span><span class="pln"> </span><span class="str">","</span><span class="pln"> </span><span class="typ">OWS</span><span class="pln"> </span><span class="pun">(</span><span class="pln"> </span><span class="typ">codings</span><span class="pln"> </span><span class="pun">[</span><span class="pln">
 </span><span class="typ">weight</span><span class="pln"> </span><span class="pun">]</span><span class="pln"> </span><span class="pun">)</span><span class="pln"> </span><span class="pun">)</span><span class="pln"> </span><span class="pun">]</span><span class="pln">
</span><a href="##field.accept-language" class="smpl"><span class="typ">Accept-Language</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="pun">[</span><span class="pln"> </span><span class="pun">(</span><span class="pln"> </span><span class="typ">language-range</span><span class="pln"> </span><span class="pun">[</span><span class="pln"> </span><span class="typ">weight</span><span class="pln"> </span><span class="pun">]</span><span class="pln"> </span><span class="pun">)</span><span class="pln"> </span><span class="pun">*(</span><span class="pln"> </span><span class="typ">OWS</span><span class="pln"> </span><span class="str">","</span><span class="pln"> </span><span class="typ">OWS</span><span class="pln"> </span><span class="pun">(</span><span class="pln">
 </span><span class="typ">language-range</span><span class="pln"> </span><span class="pun">[</span><span class="pln"> </span><span class="typ">weight</span><span class="pln"> </span><span class="pun">]</span><span class="pln"> </span><span class="pun">)</span><span class="pln"> </span><span class="pun">)</span><span class="pln"> </span><span class="pun">]</span><span class="pln">
</span><a href="##field.accept-ranges" class="smpl"><span class="typ">Accept-Ranges</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">acceptable-ranges</span><span class="pln">
</span><a href="##field.allow" class="smpl"><span class="typ">Allow</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="pun">[</span><span class="pln"> </span><span class="typ">method</span><span class="pln"> </span><span class="pun">*(</span><span class="pln"> </span><span class="typ">OWS</span><span class="pln"> </span><span class="str">","</span><span class="pln"> </span><span class="typ">OWS</span><span class="pln"> </span><span class="typ">method</span><span class="pln"> </span><span class="pun">)</span><span class="pln"> </span><span class="pun">]</span><span class="pln">
</span><a href="##field.authentication-info" class="smpl"><span class="typ">Authentication-Info</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="pun">[</span><span class="pln"> </span><span class="typ">auth-param</span><span class="pln"> </span><span class="pun">*(</span><span class="pln"> </span><span class="typ">OWS</span><span class="pln"> </span><span class="str">","</span><span class="pln"> </span><span class="typ">OWS</span><span class="pln"> </span><span class="typ">auth-param</span><span class="pln"> </span><span class="pun">)</span><span class="pln"> </span><span class="pun">]</span><span class="pln">
</span><a href="##field.authorization" class="smpl"><span class="typ">Authorization</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">credentials</span><span class="pln">

</span><a href="##whitespace" class="smpl"><span class="typ">BWS</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">OWS</span><span class="pln">

</span><a href="##field.connection" class="smpl"><span class="typ">Connection</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="pun">[</span><span class="pln"> </span><span class="typ">connection-option</span><span class="pln"> </span><span class="pun">*(</span><span class="pln"> </span><span class="typ">OWS</span><span class="pln"> </span><span class="str">","</span><span class="pln"> </span><span class="typ">OWS</span><span class="pln"> </span><span class="typ">connection-option</span><span class="pln"> </span><span class="pun">)</span><span class="pln">
 </span><span class="pun">]</span><span class="pln">
</span><a href="##field.content-encoding" class="smpl"><span class="typ">Content-Encoding</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="pun">[</span><span class="pln"> </span><span class="typ">content-coding</span><span class="pln"> </span><span class="pun">*(</span><span class="pln"> </span><span class="typ">OWS</span><span class="pln"> </span><span class="str">","</span><span class="pln"> </span><span class="typ">OWS</span><span class="pln"> </span><span class="typ">content-coding</span><span class="pln"> </span><span class="pun">)</span><span class="pln">
 </span><span class="pun">]</span><span class="pln">
</span><a href="##field.content-language" class="smpl"><span class="typ">Content-Language</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="pun">[</span><span class="pln"> </span><span class="typ">language-tag</span><span class="pln"> </span><span class="pun">*(</span><span class="pln"> </span><span class="typ">OWS</span><span class="pln"> </span><span class="str">","</span><span class="pln"> </span><span class="typ">OWS</span><span class="pln"> </span><span class="typ">language-tag</span><span class="pln"> </span><span class="pun">)</span><span class="pln"> </span><span class="pun">]</span><span class="pln">
</span><a href="##field.content-length" class="smpl"><span class="typ">Content-Length</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> 1</span><span class="pun">*</span><span class="typ">DIGIT</span><span class="pln">
</span><a href="##field.content-location" class="smpl"><span class="typ">Content-Location</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">absolute-URI</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="typ">partial-URI</span><span class="pln">
</span><a href="##field.content-range" class="smpl"><span class="typ">Content-Range</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">range-unit</span><span class="pln"> </span><span class="typ">SP</span><span class="pln"> </span><span class="pun">(</span><span class="pln"> </span><span class="typ">range-resp</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="typ">unsatisfied-range</span><span class="pln"> </span><span class="pun">)</span><span class="pln">
</span><a href="##field.content-type" class="smpl"><span class="typ">Content-Type</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">media-type</span><span class="pln">

</span><a href="##field.date" class="smpl"><span class="typ">Date</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">HTTP-date</span><span class="pln">

</span><a href="##field.etag" class="smpl"><span class="typ">ETag</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">entity-tag</span><span class="pln">
</span><a href="##field.expect" class="smpl"><span class="typ">Expect</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="pun">[</span><span class="pln"> </span><span class="typ">expectation</span><span class="pln"> </span><span class="pun">*(</span><span class="pln"> </span><span class="typ">OWS</span><span class="pln"> </span><span class="str">","</span><span class="pln"> </span><span class="typ">OWS</span><span class="pln"> </span><span class="typ">expectation</span><span class="pln"> </span><span class="pun">)</span><span class="pln"> </span><span class="pun">]</span><span class="pln">

</span><a href="##field.from" class="smpl"><span class="typ">From</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">mailbox</span><span class="pln">

</span><a href="##preferred.date.format" class="smpl"><span class="typ">GMT</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="lit">%x47.4D.54</span><span class="pln"> </span><span class="com">; GMT</span><span class="pln">

</span><a href="##http.date" class="smpl"><span class="typ">HTTP-date</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">IMF-fixdate</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="typ">obs-date</span><span class="pln">
</span><a href="##field.host" class="smpl"><span class="typ">Host</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">uri-host</span><span class="pln"> </span><span class="pun">[</span><span class="pln"> </span><span class="str">":"</span><span class="pln"> </span><span class="typ">port</span><span class="pln"> </span><span class="pun">]</span><span class="pln">

</span><a href="##preferred.date.format" class="smpl"><span class="typ">IMF-fixdate</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">day-name</span><span class="pln"> </span><span class="str">","</span><span class="pln"> </span><span class="typ">SP</span><span class="pln"> </span><span class="typ">date1</span><span class="pln"> </span><span class="typ">SP</span><span class="pln"> </span><span class="typ">time-of-day</span><span class="pln"> </span><span class="typ">SP</span><span class="pln"> </span><span class="typ">GMT</span><span class="pln">
</span><a href="##field.if-match" class="smpl"><span class="typ">If-Match</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="str">"*"</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="pun">[</span><span class="pln"> </span><span class="typ">entity-tag</span><span class="pln"> </span><span class="pun">*(</span><span class="pln"> </span><span class="typ">OWS</span><span class="pln"> </span><span class="str">","</span><span class="pln"> </span><span class="typ">OWS</span><span class="pln"> </span><span class="typ">entity-tag</span><span class="pln"> </span><span class="pun">)</span><span class="pln"> </span><span class="pun">]</span><span class="pln">
</span><a href="##field.if-modified-since" class="smpl"><span class="typ">If-Modified-Since</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">HTTP-date</span><span class="pln">
</span><a href="##field.if-none-match" class="smpl"><span class="typ">If-None-Match</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="str">"*"</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="pun">[</span><span class="pln"> </span><span class="typ">entity-tag</span><span class="pln"> </span><span class="pun">*(</span><span class="pln"> </span><span class="typ">OWS</span><span class="pln"> </span><span class="str">","</span><span class="pln"> </span><span class="typ">OWS</span><span class="pln"> </span><span class="typ">entity-tag</span><span class="pln"> </span><span class="pun">)</span><span class="pln"> </span><span class="pun">]</span><span class="pln">
</span><a href="##field.if-range" class="smpl"><span class="typ">If-Range</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">entity-tag</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="typ">HTTP-date</span><span class="pln">
</span><a href="##field.if-unmodified-since" class="smpl"><span class="typ">If-Unmodified-Since</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">HTTP-date</span><span class="pln">

</span><a href="##field.last-modified" class="smpl"><span class="typ">Last-Modified</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">HTTP-date</span><span class="pln">
</span><a href="##field.location" class="smpl"><span class="typ">Location</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">URI-reference</span><span class="pln">

</span><a href="##field.max-forwards" class="smpl"><span class="typ">Max-Forwards</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> 1</span><span class="pun">*</span><span class="typ">DIGIT</span><span class="pln">

</span><a href="##whitespace" class="smpl"><span class="typ">OWS</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="pun">*(</span><span class="pln"> </span><span class="typ">SP</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="typ">HTAB</span><span class="pln"> </span><span class="pun">)</span><span class="pln">

</span><a href="##field.proxy-authenticate" class="smpl"><span class="typ">Proxy-Authenticate</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="pun">[</span><span class="pln"> </span><span class="typ">challenge</span><span class="pln"> </span><span class="pun">*(</span><span class="pln"> </span><span class="typ">OWS</span><span class="pln"> </span><span class="str">","</span><span class="pln"> </span><span class="typ">OWS</span><span class="pln"> </span><span class="typ">challenge</span><span class="pln"> </span><span class="pun">)</span><span class="pln"> </span><span class="pun">]</span><span class="pln">
</span><a href="##field.proxy-authentication-info" class="smpl"><span class="typ">Proxy-Authentication-Info</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="pun">[</span><span class="pln"> </span><span class="typ">auth-param</span><span class="pln"> </span><span class="pun">*(</span><span class="pln"> </span><span class="typ">OWS</span><span class="pln"> </span><span class="str">","</span><span class="pln"> </span><span class="typ">OWS</span><span class="pln"> </span><span class="typ">auth-param</span><span class="pln"> </span><span class="pun">)</span><span class="pln">
 </span><span class="pun">]</span><span class="pln">
</span><a href="##field.proxy-authorization" class="smpl"><span class="typ">Proxy-Authorization</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">credentials</span><span class="pln">

</span><a href="##whitespace" class="smpl"><span class="typ">RWS</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> 1</span><span class="pun">*(</span><span class="pln"> </span><span class="typ">SP</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="typ">HTAB</span><span class="pln"> </span><span class="pun">)</span><span class="pln">
</span><a href="##field.range" class="smpl"><span class="typ">Range</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">ranges-specifier</span><span class="pln">
</span><a href="##field.referer" class="smpl"><span class="typ">Referer</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">absolute-URI</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="typ">partial-URI</span><span class="pln">
</span><a href="##field.retry-after" class="smpl"><span class="typ">Retry-After</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">HTTP-date</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="typ">delay-seconds</span><span class="pln">

</span><a href="##field.server" class="smpl"><span class="typ">Server</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">product</span><span class="pln"> </span><span class="pun">*(</span><span class="pln"> </span><span class="typ">RWS</span><span class="pln"> </span><span class="pun">(</span><span class="pln"> </span><span class="typ">product</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="typ">comment</span><span class="pln"> </span><span class="pun">)</span><span class="pln"> </span><span class="pun">)</span><span class="pln">

</span><a href="##field.te" class="smpl"><span class="typ">TE</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="pun">[</span><span class="pln"> </span><span class="typ">t-codings</span><span class="pln"> </span><span class="pun">*(</span><span class="pln"> </span><span class="typ">OWS</span><span class="pln"> </span><span class="str">","</span><span class="pln"> </span><span class="typ">OWS</span><span class="pln"> </span><span class="typ">t-codings</span><span class="pln"> </span><span class="pun">)</span><span class="pln"> </span><span class="pun">]</span><span class="pln">
</span><a href="##field.trailer" class="smpl"><span class="typ">Trailer</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="pun">[</span><span class="pln"> </span><span class="typ">field-name</span><span class="pln"> </span><span class="pun">*(</span><span class="pln"> </span><span class="typ">OWS</span><span class="pln"> </span><span class="str">","</span><span class="pln"> </span><span class="typ">OWS</span><span class="pln"> </span><span class="typ">field-name</span><span class="pln"> </span><span class="pun">)</span><span class="pln"> </span><span class="pun">]</span><span class="pln">

</span><a href="##uri.references" class="smpl"><span class="typ">URI-reference</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="nocode">&lt;URI-reference, see </span><a href="##URI" id="rfc.xref.URI.35"><cite title="Uniform Resource Identifier (URI): Generic Syntax"><span class="nocode">[URI]</span></cite></a><span class="nocode">, </span><a href="https://www.rfc-editor.org/rfc/rfc3986.html#section-4.1"><span class="nocode">Section 4.1</span></a><span class="nocode">&gt;</span><span class="pln">
</span><a href="##field.upgrade" class="smpl"><span class="typ">Upgrade</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="pun">[</span><span class="pln"> </span><span class="typ">protocol</span><span class="pln"> </span><span class="pun">*(</span><span class="pln"> </span><span class="typ">OWS</span><span class="pln"> </span><span class="str">","</span><span class="pln"> </span><span class="typ">OWS</span><span class="pln"> </span><span class="typ">protocol</span><span class="pln"> </span><span class="pun">)</span><span class="pln"> </span><span class="pun">]</span><span class="pln">
</span><a href="##field.user-agent" class="smpl"><span class="typ">User-Agent</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">product</span><span class="pln"> </span><span class="pun">*(</span><span class="pln"> </span><span class="typ">RWS</span><span class="pln"> </span><span class="pun">(</span><span class="pln"> </span><span class="typ">product</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="typ">comment</span><span class="pln"> </span><span class="pun">)</span><span class="pln"> </span><span class="pun">)</span><span class="pln">

</span><a href="##field.vary" class="smpl"><span class="typ">Vary</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="pun">[</span><span class="pln"> </span><span class="pun">(</span><span class="pln"> </span><span class="str">"*"</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="typ">field-name</span><span class="pln"> </span><span class="pun">)</span><span class="pln"> </span><span class="pun">*(</span><span class="pln"> </span><span class="typ">OWS</span><span class="pln"> </span><span class="str">","</span><span class="pln"> </span><span class="typ">OWS</span><span class="pln"> </span><span class="pun">(</span><span class="pln"> </span><span class="str">"*"</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="typ">field-name</span><span class="pln"> </span><span class="pun">)</span><span class="pln"> </span><span class="pun">)</span><span class="pln">
 </span><span class="pun">]</span><span class="pln">
</span><a href="##field.via" class="smpl"><span class="typ">Via</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="pun">[</span><span class="pln"> </span><span class="pun">(</span><span class="pln"> </span><span class="typ">received-protocol</span><span class="pln"> </span><span class="typ">RWS</span><span class="pln"> </span><span class="typ">received-by</span><span class="pln"> </span><span class="pun">[</span><span class="pln"> </span><span class="typ">RWS</span><span class="pln"> </span><span class="typ">comment</span><span class="pln"> </span><span class="pun">]</span><span class="pln"> </span><span class="pun">)</span><span class="pln"> </span><span class="pun">*(</span><span class="pln"> </span><span class="typ">OWS</span><span class="pln">
 </span><span class="str">","</span><span class="pln"> </span><span class="typ">OWS</span><span class="pln"> </span><span class="pun">(</span><span class="pln"> </span><span class="typ">received-protocol</span><span class="pln"> </span><span class="typ">RWS</span><span class="pln"> </span><span class="typ">received-by</span><span class="pln"> </span><span class="pun">[</span><span class="pln"> </span><span class="typ">RWS</span><span class="pln"> </span><span class="typ">comment</span><span class="pln"> </span><span class="pun">]</span><span class="pln"> </span><span class="pun">)</span><span class="pln"> </span><span class="pun">)</span><span class="pln"> </span><span class="pun">]</span><span class="pln">

</span><a href="##field.www-authenticate" class="smpl"><span class="typ">WWW-Authenticate</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="pun">[</span><span class="pln"> </span><span class="typ">challenge</span><span class="pln"> </span><span class="pun">*(</span><span class="pln"> </span><span class="typ">OWS</span><span class="pln"> </span><span class="str">","</span><span class="pln"> </span><span class="typ">OWS</span><span class="pln"> </span><span class="typ">challenge</span><span class="pln"> </span><span class="pun">)</span><span class="pln"> </span><span class="pun">]</span><span class="pln">

</span><a href="##uri.references" class="smpl"><span class="typ">absolute-URI</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="nocode">&lt;absolute-URI, see </span><a href="##URI" id="rfc.xref.URI.36"><cite title="Uniform Resource Identifier (URI): Generic Syntax"><span class="nocode">[URI]</span></cite></a><span class="nocode">, </span><a href="https://www.rfc-editor.org/rfc/rfc3986.html#section-4.3"><span class="nocode">Section 4.3</span></a><span class="nocode">&gt;</span><span class="pln">
</span><a href="##uri.references" class="smpl"><span class="typ">absolute-path</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> 1</span><span class="pun">*(</span><span class="pln"> </span><span class="str">"/"</span><span class="pln"> </span><span class="typ">segment</span><span class="pln"> </span><span class="pun">)</span><span class="pln">
</span><a href="##field.accept-ranges" class="smpl"><span class="typ">acceptable-ranges</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">range-unit</span><span class="pln"> </span><span class="pun">*(</span><span class="pln"> </span><span class="typ">OWS</span><span class="pln"> </span><span class="str">","</span><span class="pln"> </span><span class="typ">OWS</span><span class="pln"> </span><span class="typ">range-unit</span><span class="pln"> </span><span class="pun">)</span><span class="pln">
</span><a href="##obsolete.date.formats" class="smpl"><span class="typ">asctime-date</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">day-name</span><span class="pln"> </span><span class="typ">SP</span><span class="pln"> </span><span class="typ">date3</span><span class="pln"> </span><span class="typ">SP</span><span class="pln"> </span><span class="typ">time-of-day</span><span class="pln"> </span><span class="typ">SP</span><span class="pln"> </span><span class="typ">year</span><span class="pln">
</span><a href="##auth.params" class="smpl"><span class="typ">auth-param</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">token</span><span class="pln"> </span><span class="typ">BWS</span><span class="pln"> </span><span class="str">"="</span><span class="pln"> </span><span class="typ">BWS</span><span class="pln"> </span><span class="pun">(</span><span class="pln"> </span><span class="typ">token</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="typ">quoted-string</span><span class="pln"> </span><span class="pun">)</span><span class="pln">
</span><a href="##auth.scheme" class="smpl"><span class="typ">auth-scheme</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">token</span><span class="pln">
</span><a href="##uri.references" class="smpl"><span class="typ">authority</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="nocode">&lt;authority, see </span><a href="##URI" id="rfc.xref.URI.37"><cite title="Uniform Resource Identifier (URI): Generic Syntax"><span class="nocode">[URI]</span></cite></a><span class="nocode">, </span><a href="https://www.rfc-editor.org/rfc/rfc3986.html#section-3.2"><span class="nocode">Section 3.2</span></a><span class="nocode">&gt;</span><span class="pln">

</span><a href="##challenge.and.response" class="smpl"><span class="typ">challenge</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">auth-scheme</span><span class="pln"> </span><span class="pun">[</span><span class="pln"> 1</span><span class="pun">*</span><span class="typ">SP</span><span class="pln"> </span><span class="pun">(</span><span class="pln"> </span><span class="typ">token68</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="pun">[</span><span class="pln"> </span><span class="typ">auth-param</span><span class="pln"> </span><span class="pun">*(</span><span class="pln"> </span><span class="typ">OWS</span><span class="pln"> </span><span class="str">","</span><span class="pln">
 </span><span class="typ">OWS</span><span class="pln"> </span><span class="typ">auth-param</span><span class="pln"> </span><span class="pun">)</span><span class="pln"> </span><span class="pun">]</span><span class="pln"> </span><span class="pun">)</span><span class="pln"> </span><span class="pun">]</span><span class="pln">
</span><a href="##field.accept-encoding" class="smpl"><span class="typ">codings</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">content-coding</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="str">"identity"</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="str">"*"</span><span class="pln">
</span><a href="##rule.comment" class="smpl"><span class="typ">comment</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="str">"("</span><span class="pln"> </span><span class="pun">*(</span><span class="pln"> </span><span class="typ">ctext</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="typ">quoted-pair</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="typ">comment</span><span class="pln"> </span><span class="pun">)</span><span class="pln"> </span><span class="str">")"</span><span class="pln">
</span><a href="##field.content-range" class="smpl"><span class="typ">complete-length</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> 1</span><span class="pun">*</span><span class="typ">DIGIT</span><span class="pln">
</span><a href="##field.connection" class="smpl"><span class="typ">connection-option</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">token</span><span class="pln">
</span><a href="##content.codings" class="smpl"><span class="typ">content-coding</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">token</span><span class="pln">
</span><a href="##credentials" class="smpl"><span class="typ">credentials</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">auth-scheme</span><span class="pln"> </span><span class="pun">[</span><span class="pln"> 1</span><span class="pun">*</span><span class="typ">SP</span><span class="pln"> </span><span class="pun">(</span><span class="pln"> </span><span class="typ">token68</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="pun">[</span><span class="pln"> </span><span class="typ">auth-param</span><span class="pln"> </span><span class="pun">*(</span><span class="pln"> </span><span class="typ">OWS</span><span class="pln"> </span><span class="str">","</span><span class="pln">
 </span><span class="typ">OWS</span><span class="pln"> </span><span class="typ">auth-param</span><span class="pln"> </span><span class="pun">)</span><span class="pln"> </span><span class="pun">]</span><span class="pln"> </span><span class="pun">)</span><span class="pln"> </span><span class="pun">]</span><span class="pln">
</span><a href="##rule.comment" class="smpl"><span class="typ">ctext</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">HTAB</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="typ">SP</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="lit">%x21-27</span><span class="pln"> </span><span class="com">; '!'-'''</span><span class="pln">
 </span><span class="pun">/</span><span class="pln"> </span><span class="lit">%x2A-5B</span><span class="pln"> </span><span class="com">; '*'-'['</span><span class="pln">
 </span><span class="pun">/</span><span class="pln"> </span><span class="lit">%x5D-7E</span><span class="pln"> </span><span class="com">; ']'-'~'</span><span class="pln">
 </span><span class="pun">/</span><span class="pln"> </span><span class="typ">obs-text</span><span class="pln">

</span><a href="##obsolete.date.formats" class="smpl"><span class="typ">date1</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">day</span><span class="pln"> </span><span class="typ">SP</span><span class="pln"> </span><span class="typ">month</span><span class="pln"> </span><span class="typ">SP</span><span class="pln"> </span><span class="typ">year</span><span class="pln">
</span><a href="##obsolete.date.formats" class="smpl"><span class="typ">date2</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">day</span><span class="pln"> </span><span class="str">"-"</span><span class="pln"> </span><span class="typ">month</span><span class="pln"> </span><span class="str">"-"</span><span class="pln"> 2</span><span class="typ">DIGIT</span><span class="pln">
</span><a href="##obsolete.date.formats" class="smpl"><span class="typ">date3</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">month</span><span class="pln"> </span><span class="typ">SP</span><span class="pln"> </span><span class="pun">(</span><span class="pln"> 2</span><span class="typ">DIGIT</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="pun">(</span><span class="pln"> </span><span class="typ">SP</span><span class="pln"> </span><span class="typ">DIGIT</span><span class="pln"> </span><span class="pun">)</span><span class="pln"> </span><span class="pun">)</span><span class="pln">
</span><a href="##preferred.date.format" class="smpl"><span class="typ">day</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> 2</span><span class="typ">DIGIT</span><span class="pln">
</span><a href="##preferred.date.format" class="smpl"><span class="typ">day-name</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="lit">%x4D.6F.6E</span><span class="pln"> </span><span class="com">; Mon</span><span class="pln">
 </span><span class="pun">/</span><span class="pln"> </span><span class="lit">%x54.75.65</span><span class="pln"> </span><span class="com">; Tue</span><span class="pln">
 </span><span class="pun">/</span><span class="pln"> </span><span class="lit">%x57.65.64</span><span class="pln"> </span><span class="com">; Wed</span><span class="pln">
 </span><span class="pun">/</span><span class="pln"> </span><span class="lit">%x54.68.75</span><span class="pln"> </span><span class="com">; Thu</span><span class="pln">
 </span><span class="pun">/</span><span class="pln"> </span><span class="lit">%x46.72.69</span><span class="pln"> </span><span class="com">; Fri</span><span class="pln">
 </span><span class="pun">/</span><span class="pln"> </span><span class="lit">%x53.61.74</span><span class="pln"> </span><span class="com">; Sat</span><span class="pln">
 </span><span class="pun">/</span><span class="pln"> </span><span class="lit">%x53.75.6E</span><span class="pln"> </span><span class="com">; Sun</span><span class="pln">
</span><a href="##obsolete.date.formats" class="smpl"><span class="typ">day-name-l</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="lit">%x4D.6F.6E.64.61.79</span><span class="pln"> </span><span class="com">; Monday</span><span class="pln">
 </span><span class="pun">/</span><span class="pln"> </span><span class="lit">%x54.75.65.73.64.61.79</span><span class="pln"> </span><span class="com">; Tuesday</span><span class="pln">
 </span><span class="pun">/</span><span class="pln"> </span><span class="lit">%x57.65.64.6E.65.73.64.61.79</span><span class="pln"> </span><span class="com">; Wednesday</span><span class="pln">
 </span><span class="pun">/</span><span class="pln"> </span><span class="lit">%x54.68.75.72.73.64.61.79</span><span class="pln"> </span><span class="com">; Thursday</span><span class="pln">
 </span><span class="pun">/</span><span class="pln"> </span><span class="lit">%x46.72.69.64.61.79</span><span class="pln"> </span><span class="com">; Friday</span><span class="pln">
 </span><span class="pun">/</span><span class="pln"> </span><span class="lit">%x53.61.74.75.72.64.61.79</span><span class="pln"> </span><span class="com">; Saturday</span><span class="pln">
 </span><span class="pun">/</span><span class="pln"> </span><span class="lit">%x53.75.6E.64.61.79</span><span class="pln"> </span><span class="com">; Sunday</span><span class="pln">
</span><a href="##rule.delay-seconds" class="smpl"><span class="typ">delay-seconds</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> 1</span><span class="pun">*</span><span class="typ">DIGIT</span><span class="pln">

</span><a href="##field.etag" class="smpl"><span class="typ">entity-tag</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="pun">[</span><span class="pln"> </span><span class="typ">weak</span><span class="pln"> </span><span class="pun">]</span><span class="pln"> </span><span class="typ">opaque-tag</span><span class="pln">
</span><a href="##field.etag" class="smpl"><span class="typ">etagc</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="str">"!"</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="lit">%x23-7E</span><span class="pln"> </span><span class="com">; '#'-'~'</span><span class="pln">
 </span><span class="pun">/</span><span class="pln"> </span><span class="typ">obs-text</span><span class="pln">
</span><a href="##field.expect" class="smpl"><span class="typ">expectation</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">token</span><span class="pln"> </span><span class="pun">[</span><span class="pln"> </span><span class="str">"="</span><span class="pln"> </span><span class="pun">(</span><span class="pln"> </span><span class="typ">token</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="typ">quoted-string</span><span class="pln"> </span><span class="pun">)</span><span class="pln"> </span><span class="typ">parameters</span><span class="pln"> </span><span class="pun">]</span><span class="pln">

</span><a href="##fields.values" class="smpl"><span class="typ">field-content</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">field-vchar</span><span class="pln"> </span><span class="pun">[</span><span class="pln"> 1</span><span class="pun">*(</span><span class="pln"> </span><span class="typ">SP</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="typ">HTAB</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="typ">field-vchar</span><span class="pln"> </span><span class="pun">)</span><span class="pln">
 </span><span class="typ">field-vchar</span><span class="pln"> </span><span class="pun">]</span><span class="pln">
</span><a href="##fields.names" class="smpl"><span class="typ">field-name</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">token</span><span class="pln">
</span><a href="##fields.values" class="smpl"><span class="typ">field-value</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="pun">*</span><span class="typ">field-content</span><span class="pln">
</span><a href="##fields.values" class="smpl"><span class="typ">field-vchar</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">VCHAR</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="typ">obs-text</span><span class="pln">
</span><a href="##rule.int-range" class="smpl"><span class="typ">first-pos</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> 1</span><span class="pun">*</span><span class="typ">DIGIT</span><span class="pln">

</span><a href="##preferred.date.format" class="smpl"><span class="typ">hour</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> 2</span><span class="typ">DIGIT</span><span class="pln">
</span><a href="##http.uri" class="smpl"><span class="typ">http-URI</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="str">"http://"</span><span class="pln"> </span><span class="typ">authority</span><span class="pln"> </span><span class="typ">path-abempty</span><span class="pln"> </span><span class="pun">[</span><span class="pln"> </span><span class="str">"?"</span><span class="pln"> </span><span class="typ">query</span><span class="pln"> </span><span class="pun">]</span><span class="pln">
</span><a href="##https.uri" class="smpl"><span class="typ">https-URI</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="str">"https://"</span><span class="pln"> </span><span class="typ">authority</span><span class="pln"> </span><span class="typ">path-abempty</span><span class="pln"> </span><span class="pun">[</span><span class="pln"> </span><span class="str">"?"</span><span class="pln"> </span><span class="typ">query</span><span class="pln"> </span><span class="pun">]</span><span class="pln">

</span><a href="##field.content-range" class="smpl"><span class="typ">incl-range</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">first-pos</span><span class="pln"> </span><span class="str">"-"</span><span class="pln"> </span><span class="typ">last-pos</span><span class="pln">
</span><a href="##rule.int-range" class="smpl"><span class="typ">int-range</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">first-pos</span><span class="pln"> </span><span class="str">"-"</span><span class="pln"> </span><span class="pun">[</span><span class="pln"> </span><span class="typ">last-pos</span><span class="pln"> </span><span class="pun">]</span><span class="pln">

</span><a href="##field.accept-language" class="smpl"><span class="typ">language-range</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="nocode">&lt;language-range, see </span><a href="##RFC4647" id="rfc.xref.RFC4647.5"><cite title="Matching of Language Tags"><span class="nocode">[RFC4647]</span></cite></a><span class="nocode">, </span><a href="https://www.rfc-editor.org/rfc/rfc4647.html#section-2.1"><span class="nocode">Section 2.1</span></a><span class="nocode">&gt;</span><span class="pln">
</span><a href="##language.tags" class="smpl"><span class="typ">language-tag</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="nocode">&lt;Language-Tag, see </span><a href="##RFC5646" id="rfc.xref.RFC5646.4"><cite title="Tags for Identifying Languages"><span class="nocode">[RFC5646]</span></cite></a><span class="nocode">, </span><a href="https://www.rfc-editor.org/rfc/rfc5646.html#section-2.1"><span class="nocode">Section 2.1</span></a><span class="nocode">&gt;</span><span class="pln">
</span><a href="##rule.int-range" class="smpl"><span class="typ">last-pos</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> 1</span><span class="pun">*</span><span class="typ">DIGIT</span><span class="pln">

</span><a href="##field.from" class="smpl"><span class="typ">mailbox</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="nocode">&lt;mailbox, see </span><a href="##RFC5322" id="rfc.xref.RFC5322.8"><cite title="Internet Message Format"><span class="nocode">[RFC5322]</span></cite></a><span class="nocode">, </span><a href="https://www.rfc-editor.org/rfc/rfc5322.html#section-3.4"><span class="nocode">Section 3.4</span></a><span class="nocode">&gt;</span><span class="pln">
</span><a href="##field.accept" class="smpl"><span class="typ">media-range</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="pun">(</span><span class="pln"> </span><span class="str">"*/*"</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="pun">(</span><span class="pln"> </span><span class="typ">type</span><span class="pln"> </span><span class="str">"/*"</span><span class="pln"> </span><span class="pun">)</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="pun">(</span><span class="pln"> </span><span class="typ">type</span><span class="pln"> </span><span class="str">"/"</span><span class="pln"> </span><span class="typ">subtype</span><span class="pln"> </span><span class="pun">)</span><span class="pln"> </span><span class="pun">)</span><span class="pln">
 </span><span class="typ">parameters</span><span class="pln">
</span><a href="##media.type" class="smpl"><span class="typ">media-type</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">type</span><span class="pln"> </span><span class="str">"/"</span><span class="pln"> </span><span class="typ">subtype</span><span class="pln"> </span><span class="typ">parameters</span><span class="pln">
</span><a href="##method.overview" class="smpl"><span class="typ">method</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">token</span><span class="pln">
</span><a href="##preferred.date.format" class="smpl"><span class="typ">minute</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> 2</span><span class="typ">DIGIT</span><span class="pln">
</span><a href="##preferred.date.format" class="smpl"><span class="typ">month</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="lit">%x4A.61.6E</span><span class="pln"> </span><span class="com">; Jan</span><span class="pln">
 </span><span class="pun">/</span><span class="pln"> </span><span class="lit">%x46.65.62</span><span class="pln"> </span><span class="com">; Feb</span><span class="pln">
 </span><span class="pun">/</span><span class="pln"> </span><span class="lit">%x4D.61.72</span><span class="pln"> </span><span class="com">; Mar</span><span class="pln">
 </span><span class="pun">/</span><span class="pln"> </span><span class="lit">%x41.70.72</span><span class="pln"> </span><span class="com">; Apr</span><span class="pln">
 </span><span class="pun">/</span><span class="pln"> </span><span class="lit">%x4D.61.79</span><span class="pln"> </span><span class="com">; May</span><span class="pln">
 </span><span class="pun">/</span><span class="pln"> </span><span class="lit">%x4A.75.6E</span><span class="pln"> </span><span class="com">; Jun</span><span class="pln">
 </span><span class="pun">/</span><span class="pln"> </span><span class="lit">%x4A.75.6C</span><span class="pln"> </span><span class="com">; Jul</span><span class="pln">
 </span><span class="pun">/</span><span class="pln"> </span><span class="lit">%x41.75.67</span><span class="pln"> </span><span class="com">; Aug</span><span class="pln">
 </span><span class="pun">/</span><span class="pln"> </span><span class="lit">%x53.65.70</span><span class="pln"> </span><span class="com">; Sep</span><span class="pln">
 </span><span class="pun">/</span><span class="pln"> </span><span class="lit">%x4F.63.74</span><span class="pln"> </span><span class="com">; Oct</span><span class="pln">
 </span><span class="pun">/</span><span class="pln"> </span><span class="lit">%x4E.6F.76</span><span class="pln"> </span><span class="com">; Nov</span><span class="pln">
 </span><span class="pun">/</span><span class="pln"> </span><span class="lit">%x44.65.63</span><span class="pln"> </span><span class="com">; Dec</span><span class="pln">

</span><a href="##obsolete.date.formats" class="smpl"><span class="typ">obs-date</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">rfc850-date</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="typ">asctime-date</span><span class="pln">
</span><a href="##fields.values" class="smpl"><span class="typ">obs-text</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="lit">%x80-FF</span><span class="pln">
</span><a href="##field.etag" class="smpl"><span class="typ">opaque-tag</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">DQUOTE</span><span class="pln"> </span><span class="pun">*</span><span class="typ">etagc</span><span class="pln"> </span><span class="typ">DQUOTE</span><span class="pln">
</span><a href="##rule.other-range" class="smpl"><span class="typ">other-range</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> 1</span><span class="pun">*(</span><span class="pln"> </span><span class="lit">%x21-2B</span><span class="pln"> </span><span class="com">; '!'-'+'</span><span class="pln">
 </span><span class="pun">/</span><span class="pln"> </span><span class="lit">%x2D-7E</span><span class="pln"> </span><span class="com">; '-'-'~'</span><span class="pln">
 </span><span class="pun">)</span><span class="pln">

</span><a href="##parameter" class="smpl"><span class="typ">parameter</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">parameter-name</span><span class="pln"> </span><span class="str">"="</span><span class="pln"> </span><span class="typ">parameter-value</span><span class="pln">
</span><a href="##rule.parameter" class="smpl"><span class="typ">parameter-name</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">token</span><span class="pln">
</span><a href="##rule.parameter" class="smpl"><span class="typ">parameter-value</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="pun">(</span><span class="pln"> </span><span class="typ">token</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="typ">quoted-string</span><span class="pln"> </span><span class="pun">)</span><span class="pln">
</span><a href="##rule.parameter" class="smpl"><span class="typ">parameters</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="pun">*(</span><span class="pln"> </span><span class="typ">OWS</span><span class="pln"> </span><span class="str">";"</span><span class="pln"> </span><span class="typ">OWS</span><span class="pln"> </span><span class="pun">[</span><span class="pln"> </span><span class="typ">parameter</span><span class="pln"> </span><span class="pun">]</span><span class="pln"> </span><span class="pun">)</span><span class="pln">
</span><a href="##uri.references" class="smpl"><span class="typ">partial-URI</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">relative-part</span><span class="pln"> </span><span class="pun">[</span><span class="pln"> </span><span class="str">"?"</span><span class="pln"> </span><span class="typ">query</span><span class="pln"> </span><span class="pun">]</span><span class="pln">
</span><a href="##uri.references" class="smpl"><span class="typ">path-abempty</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="nocode">&lt;path-abempty, see </span><a href="##URI" id="rfc.xref.URI.38"><cite title="Uniform Resource Identifier (URI): Generic Syntax"><span class="nocode">[URI]</span></cite></a><span class="nocode">, </span><a href="https://www.rfc-editor.org/rfc/rfc3986.html#section-3.3"><span class="nocode">Section 3.3</span></a><span class="nocode">&gt;</span><span class="pln">
</span><a href="##uri.references" class="smpl"><span class="typ">port</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="nocode">&lt;port, see </span><a href="##URI" id="rfc.xref.URI.39"><cite title="Uniform Resource Identifier (URI): Generic Syntax"><span class="nocode">[URI]</span></cite></a><span class="nocode">, </span><a href="https://www.rfc-editor.org/rfc/rfc3986.html#section-3.2.3"><span class="nocode">Section 3.2.3</span></a><span class="nocode">&gt;</span><span class="pln">
</span><a href="##field.user-agent" class="smpl"><span class="typ">product</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">token</span><span class="pln"> </span><span class="pun">[</span><span class="pln"> </span><span class="str">"/"</span><span class="pln"> </span><span class="typ">product-version</span><span class="pln"> </span><span class="pun">]</span><span class="pln">
</span><a href="##field.user-agent" class="smpl"><span class="typ">product-version</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">token</span><span class="pln">
</span><a href="##field.upgrade" class="smpl"><span class="typ">protocol</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">protocol-name</span><span class="pln"> </span><span class="pun">[</span><span class="pln"> </span><span class="str">"/"</span><span class="pln"> </span><span class="typ">protocol-version</span><span class="pln"> </span><span class="pun">]</span><span class="pln">
</span><a href="##field.upgrade" class="smpl"><span class="typ">protocol-name</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">token</span><span class="pln">
</span><a href="##field.upgrade" class="smpl"><span class="typ">protocol-version</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">token</span><span class="pln">
</span><a href="##field.via" class="smpl"><span class="typ">pseudonym</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">token</span><span class="pln">

</span><a href="##rule.quoted-string" class="smpl"><span class="typ">qdtext</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">HTAB</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="typ">SP</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="str">"!"</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="lit">%x23-5B</span><span class="pln"> </span><span class="com">; '#'-'['</span><span class="pln">
 </span><span class="pun">/</span><span class="pln"> </span><span class="lit">%x5D-7E</span><span class="pln"> </span><span class="com">; ']'-'~'</span><span class="pln">
 </span><span class="pun">/</span><span class="pln"> </span><span class="typ">obs-text</span><span class="pln">
</span><a href="##uri.references" class="smpl"><span class="typ">query</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="nocode">&lt;query, see </span><a href="##URI" id="rfc.xref.URI.40"><cite title="Uniform Resource Identifier (URI): Generic Syntax"><span class="nocode">[URI]</span></cite></a><span class="nocode">, </span><a href="https://www.rfc-editor.org/rfc/rfc3986.html#section-3.4"><span class="nocode">Section 3.4</span></a><span class="nocode">&gt;</span><span class="pln">
</span><a href="##rule.quoted-pair" class="smpl"><span class="typ">quoted-pair</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="str">"\"</span><span class="pln"> </span><span class="pun">(</span><span class="pln"> </span><span class="typ">HTAB</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="typ">SP</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="typ">VCHAR</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="typ">obs-text</span><span class="pln"> </span><span class="pun">)</span><span class="pln">
</span><a href="##rule.quoted-string" class="smpl"><span class="typ">quoted-string</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">DQUOTE</span><span class="pln"> </span><span class="pun">*(</span><span class="pln"> </span><span class="typ">qdtext</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="typ">quoted-pair</span><span class="pln"> </span><span class="pun">)</span><span class="pln"> </span><span class="typ">DQUOTE</span><span class="pln">
</span><a href="##quality.values" class="smpl"><span class="typ">qvalue</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="pun">(</span><span class="pln"> </span><span class="str">"0"</span><span class="pln"> </span><span class="pun">[</span><span class="pln"> </span><span class="str">"."</span><span class="pln"> </span><span class="pun">*</span><span class="pln">3</span><span class="typ">DIGIT</span><span class="pln"> </span><span class="pun">]</span><span class="pln"> </span><span class="pun">)</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="pun">(</span><span class="pln"> </span><span class="str">"1"</span><span class="pln"> </span><span class="pun">[</span><span class="pln"> </span><span class="str">"."</span><span class="pln"> </span><span class="pun">*</span><span class="pln">3</span><span class="str">"0"</span><span class="pln"> </span><span class="pun">]</span><span class="pln"> </span><span class="pun">)</span><span class="pln">

</span><a href="##field.content-range" class="smpl"><span class="typ">range-resp</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">incl-range</span><span class="pln"> </span><span class="str">"/"</span><span class="pln"> </span><span class="pun">(</span><span class="pln"> </span><span class="typ">complete-length</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="str">"*"</span><span class="pln"> </span><span class="pun">)</span><span class="pln">
</span><a href="##rule.ranges-specifier" class="smpl"><span class="typ">range-set</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">range-spec</span><span class="pln"> </span><span class="pun">*(</span><span class="pln"> </span><span class="typ">OWS</span><span class="pln"> </span><span class="str">","</span><span class="pln"> </span><span class="typ">OWS</span><span class="pln"> </span><span class="typ">range-spec</span><span class="pln"> </span><span class="pun">)</span><span class="pln">
</span><a href="##rule.ranges-specifier" class="smpl"><span class="typ">range-spec</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">int-range</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="typ">suffix-range</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="typ">other-range</span><span class="pln">
</span><a href="##range.units" class="smpl"><span class="typ">range-unit</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">token</span><span class="pln">
</span><a href="##rule.ranges-specifier" class="smpl"><span class="typ">ranges-specifier</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">range-unit</span><span class="pln"> </span><span class="str">"="</span><span class="pln"> </span><span class="typ">range-set</span><span class="pln">
</span><a href="##field.via" class="smpl"><span class="typ">received-by</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">pseudonym</span><span class="pln"> </span><span class="pun">[</span><span class="pln"> </span><span class="str">":"</span><span class="pln"> </span><span class="typ">port</span><span class="pln"> </span><span class="pun">]</span><span class="pln">
</span><a href="##field.via" class="smpl"><span class="typ">received-protocol</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="pun">[</span><span class="pln"> </span><span class="typ">protocol-name</span><span class="pln"> </span><span class="str">"/"</span><span class="pln"> </span><span class="pun">]</span><span class="pln"> </span><span class="typ">protocol-version</span><span class="pln">
</span><a href="##uri.references" class="smpl"><span class="typ">relative-part</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="nocode">&lt;relative-part, see </span><a href="##URI" id="rfc.xref.URI.41"><cite title="Uniform Resource Identifier (URI): Generic Syntax"><span class="nocode">[URI]</span></cite></a><span class="nocode">, </span><a href="https://www.rfc-editor.org/rfc/rfc3986.html#section-4.2"><span class="nocode">Section 4.2</span></a><span class="nocode">&gt;</span><span class="pln">
</span><a href="##obsolete.date.formats" class="smpl"><span class="typ">rfc850-date</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">day-name-l</span><span class="pln"> </span><span class="str">","</span><span class="pln"> </span><span class="typ">SP</span><span class="pln"> </span><span class="typ">date2</span><span class="pln"> </span><span class="typ">SP</span><span class="pln"> </span><span class="typ">time-of-day</span><span class="pln"> </span><span class="typ">SP</span><span class="pln"> </span><span class="typ">GMT</span><span class="pln">

</span><a href="##preferred.date.format" class="smpl"><span class="typ">second</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> 2</span><span class="typ">DIGIT</span><span class="pln">
</span><a href="##uri.references" class="smpl"><span class="typ">segment</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="nocode">&lt;segment, see </span><a href="##URI" id="rfc.xref.URI.42"><cite title="Uniform Resource Identifier (URI): Generic Syntax"><span class="nocode">[URI]</span></cite></a><span class="nocode">, </span><a href="https://www.rfc-editor.org/rfc/rfc3986.html#section-3.3"><span class="nocode">Section 3.3</span></a><span class="nocode">&gt;</span><span class="pln">
</span><a href="##media.type" class="smpl"><span class="typ">subtype</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">token</span><span class="pln">
</span><a href="##rule.suffix-range" class="smpl"><span class="typ">suffix-length</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> 1</span><span class="pun">*</span><span class="typ">DIGIT</span><span class="pln">
</span><a href="##rule.suffix-range" class="smpl"><span class="typ">suffix-range</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="str">"-"</span><span class="pln"> </span><span class="typ">suffix-length</span><span class="pln">

</span><a href="##field.te" class="smpl"><span class="typ">t-codings</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="str">"trailers"</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="pun">(</span><span class="pln"> </span><span class="typ">transfer-coding</span><span class="pln"> </span><span class="pun">[</span><span class="pln"> </span><span class="typ">weight</span><span class="pln"> </span><span class="pun">]</span><span class="pln"> </span><span class="pun">)</span><span class="pln">
</span><a href="##rule.token.separators" class="smpl"><span class="typ">tchar</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="str">"!"</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="str">"#"</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="str">"$"</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="str">"%"</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="str">"&amp;"</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="str">"'"</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="str">"*"</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="str">"+"</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="str">"-"</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="str">"."</span><span class="pln"> </span><span class="pun">/</span><span class="pln">
 </span><span class="str">"^"</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="str">"_"</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="str">"`"</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="str">"|"</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="str">"~"</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="typ">DIGIT</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="typ">ALPHA</span><span class="pln">
</span><a href="##preferred.date.format" class="smpl"><span class="typ">time-of-day</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">hour</span><span class="pln"> </span><span class="str">":"</span><span class="pln"> </span><span class="typ">minute</span><span class="pln"> </span><span class="str">":"</span><span class="pln"> </span><span class="typ">second</span><span class="pln">
</span><a href="##rule.token.separators" class="smpl"><span class="typ">token</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> 1</span><span class="pun">*</span><span class="typ">tchar</span><span class="pln">
</span><a href="##auth.params" class="smpl"><span class="typ">token68</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> 1</span><span class="pun">*(</span><span class="pln"> </span><span class="typ">ALPHA</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="typ">DIGIT</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="str">"-"</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="str">"."</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="str">"_"</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="str">"~"</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="str">"+"</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="str">"/"</span><span class="pln"> </span><span class="pun">)</span><span class="pln">
 </span><span class="pun">*</span><span class="str">"="</span><span class="pln">
</span><a href="##field.te" class="smpl"><span class="typ">transfer-coding</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">token</span><span class="pln"> </span><span class="pun">*(</span><span class="pln"> </span><span class="typ">OWS</span><span class="pln"> </span><span class="str">";"</span><span class="pln"> </span><span class="typ">OWS</span><span class="pln"> </span><span class="typ">transfer-parameter</span><span class="pln"> </span><span class="pun">)</span><span class="pln">
</span><a href="##field.te" class="smpl"><span class="typ">transfer-parameter</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">token</span><span class="pln"> </span><span class="typ">BWS</span><span class="pln"> </span><span class="str">"="</span><span class="pln"> </span><span class="typ">BWS</span><span class="pln"> </span><span class="pun">(</span><span class="pln"> </span><span class="typ">token</span><span class="pln"> </span><span class="pun">/</span><span class="pln"> </span><span class="typ">quoted-string</span><span class="pln"> </span><span class="pun">)</span><span class="pln">
</span><a href="##media.type" class="smpl"><span class="typ">type</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">token</span><span class="pln">

</span><a href="##field.content-range" class="smpl"><span class="typ">unsatisfied-range</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="str">"*/"</span><span class="pln"> </span><span class="typ">complete-length</span><span class="pln">
</span><a href="##uri.references" class="smpl"><span class="typ">uri-host</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="nocode">&lt;host, see </span><a href="##URI" id="rfc.xref.URI.43"><cite title="Uniform Resource Identifier (URI): Generic Syntax"><span class="nocode">[URI]</span></cite></a><span class="nocode">, </span><a href="https://www.rfc-editor.org/rfc/rfc3986.html#section-3.2.2"><span class="nocode">Section 3.2.2</span></a><span class="nocode">&gt;</span><span class="pln">

</span><a href="##field.etag" class="smpl"><span class="typ">weak</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="lit">%x57.2F</span><span class="pln"> </span><span class="com">; W/</span><span class="pln">
</span><a href="##quality.values" class="smpl"><span class="typ">weight</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> </span><span class="typ">OWS</span><span class="pln"> </span><span class="str">";"</span><span class="pln"> </span><span class="typ">OWS</span><span class="pln"> </span><span class="str">"q="</span><span class="pln"> </span><span class="typ">qvalue</span><span class="pln">

</span><a href="##preferred.date.format" class="smpl"><span class="typ">year</span></a><span class="pln"> </span><span class="pun">=</span><span class="pln"> 4</span><span class="typ">DIGIT</span></pre></div></section><section id="changes.from.previous.rfcs"><h2 id="rfc.section.B"><a href="##rfc.section.B">Appendix B.</a>&nbsp;<a href="##changes.from.previous.rfcs">Changes from Previous RFCs</a></h2><section id="changes.from.rfc.2818"><h3 id="rfc.section.B.1"><a href="##rfc.section.B.1">B.1.</a>&nbsp;<a href="##changes.from.rfc.2818">Changes from RFC 2818</a></h3><div id="rfc.section.B.1.p.1"><p>None.</p></div></section><section id="changes.from.rfc.7230"><h3 id="rfc.section.B.2"><a href="##rfc.section.B.2">B.2.</a>&nbsp;<a href="##changes.from.rfc.7230">Changes from RFC 7230</a></h3><div id="rfc.section.B.2.p.1"><p>The sections introducing HTTP's design goals, history, architecture, conformance criteria, protocol versioning, URIs, message routing, and header fields have been moved here.</p></div><div id="rfc.section.B.2.p.2"><p>The requirement on semantic conformance has been replaced with permission to ignore or work around implementation-specific failures. (<a href="##requirements.notation" title="Requirements Notation">Section 2.2</a>)</p></div><div id="rfc.section.B.2.p.3"><p>The description of an origin and authoritative access to origin servers has been extended for both "http" and "https" URIs to account for alternative services and secured connections that are not necessarily based on TCP. (Sections <a href="##http.uri" title="http URI Scheme">4.2.1</a>, <a href="##https.uri" title="https URI Scheme">4.2.2</a>, <a href="##origin" title="URI Origin">4.3.1</a>, and <a href="##routing.origin" title="To the Origin">7.3.3</a>)</p></div><div id="rfc.section.B.2.p.4"><p>Explicit requirements have been added to check the target URI scheme's semantics and reject requests that don't meet any associated requirements. (<a href="##routing.reject" title="Rejecting Misdirected Requests">Section 7.4</a>)</p></div><div id="rfc.section.B.2.p.5"><p>Parameters in media type, media range, and expectation can be empty via one or more trailing semicolons. (<a href="##parameter" title="Parameters">Section 5.6.6</a>)</p></div><div id="rfc.section.B.2.p.6"><p>"Field value" now refers to the value after multiple field lines are combined with commas — by far the most common use. To refer to a single header line's value, use "field line value". (<a href="##header.fields" title="Header Fields">Section 6.3</a>)</p></div><div id="rfc.section.B.2.p.7"><p>Trailer field semantics now transcend the specifics of chunked transfer coding. The use of trailer fields has been further limited to allow generation as a trailer field only when the sender knows the field defines that usage and to allow merging into the header section only if the recipient knows the corresponding field definition permits and defines how to merge. In all other cases, implementations are encouraged either to store the trailer fields separately or to discard them instead of merging. (<a href="##trailers.limitations" title="Limitations on Use of Trailers">Section 6.5.1</a>)</p></div><div id="rfc.section.B.2.p.8"><p>The priority of the absolute form of the request URI over the Host header field by origin servers has been made explicit to align with proxy handling. (<a href="##field.host" id="rfc.xref.field.host.4" title="Host and :authority">Section 7.2</a>)</p></div><div id="rfc.section.B.2.p.9"><p>The grammar definition for the Via field's "received-by" was expanded in RFC 7230 due to changes in the URI grammar for host <a href="##URI" id="rfc.xref.URI.44"><cite title="Uniform Resource Identifier (URI): Generic Syntax">[URI]</cite></a> that are not desirable for Via. For simplicity, we have removed uri-host from the received-by production because it can be encompassed by the existing grammar for pseudonym. In particular, this change removed comma from the allowed set of characters for a host name in received-by. (<a href="##field.via" id="rfc.xref.field.via.5" title="Via">Section 7.6.3</a>)</p></div></section><section id="changes.from.rfc.7231"><h3 id="rfc.section.B.3"><a href="##rfc.section.B.3">B.3.</a>&nbsp;<a href="##changes.from.rfc.7231">Changes from RFC 7231</a></h3><div id="rfc.section.B.3.p.1"><p>Minimum URI lengths to be supported by implementations are now recommended. (<a href="##uri.references" title="URI References">Section 4.1</a>)</p></div><div id="rfc.section.B.3.p.2"><p>The following have been clarified: CR and NUL in field values are to be rejected or mapped to SP, and leading and trailing whitespace needs to be stripped from field values before they are consumed. (<a href="##fields.values" title="Field Values">Section 5.5</a>)</p></div><div id="rfc.section.B.3.p.3"><p>Parameters in media type, media range, and expectation can be empty via one or more trailing semicolons. (<a href="##parameter" title="Parameters">Section 5.6.6</a>)</p></div><div id="rfc.section.B.3.p.4"><p>An abstract data type for HTTP messages has been introduced to define the components of a message and their semantics as an abstraction across multiple HTTP versions, rather than in terms of the specific syntax form of HTTP/1.1 in <a href="##HTTP11" id="rfc.xref.HTTP11.27"><cite title="HTTP/1.1">[HTTP/1.1]</cite></a>, and reflect the contents after the message is parsed. This makes it easier to distinguish between requirements on the content (what is conveyed) versus requirements on the messaging syntax (how it is conveyed) and avoids baking limitations of early protocol versions into the future of HTTP. (<a href="##message.abstraction" title="Message Abstraction">Section 6</a>)</p></div><div id="rfc.section.B.3.p.5"><p>The terms "payload" and "payload body" have been replaced with "content", to better align with its usage elsewhere (e.g., in field names) and to avoid confusion with frame payloads in HTTP/2 and HTTP/3. (<a href="##content" title="Content">Section 6.4</a>)</p></div><div id="rfc.section.B.3.p.6"><p>The term "effective request URI" has been replaced with "target URI". (<a href="##target.resource" title="Determining the Target Resource">Section 7.1</a>)</p></div><div id="rfc.section.B.3.p.7"><p>Restrictions on client retries have been loosened to reflect implementation behavior. (<a href="##idempotent.methods" title="Idempotent Methods">Section 9.2.2</a>)</p></div><div id="rfc.section.B.3.p.8"><p>The fact that request bodies on GET, HEAD, and DELETE are not interoperable has been clarified. (Sections <a href="##GET" id="rfc.xref.GET.8" title="GET">9.3.1</a>, <a href="##HEAD" id="rfc.xref.HEAD.6" title="HEAD">9.3.2</a>, and <a href="##DELETE" id="rfc.xref.DELETE.3" title="DELETE">9.3.5</a>)</p></div><div id="rfc.section.B.3.p.9"><p>The use of the Content-Range header field (<a href="##field.content-range" id="rfc.xref.field.content-range.6" title="Content-Range">Section 14.4</a>) as a request modifier on PUT is allowed. (<a href="##PUT" id="rfc.xref.PUT.8" title="PUT">Section 9.3.4</a>)</p></div><div id="rfc.section.B.3.p.10"><p>A superfluous requirement about setting <a href="##field.content-length" class="smpl">Content-Length</a> has been removed from the description of the OPTIONS method. (<a href="##OPTIONS" id="rfc.xref.OPTIONS.5" title="OPTIONS">Section 9.3.7</a>)</p></div><div id="rfc.section.B.3.p.11"><p>The normative requirement to use the "message/http" media type in TRACE responses has been removed. (<a href="##TRACE" id="rfc.xref.TRACE.4" title="TRACE">Section 9.3.8</a>)</p></div><div id="rfc.section.B.3.p.12"><p>List-based grammar for <a href="##field.expect" class="smpl">Expect</a> has been restored for compatibility with RFC 2616. (<a href="##field.expect" id="rfc.xref.field.expect.5" title="Expect">Section 10.1.1</a>)</p></div><div id="rfc.section.B.3.p.13"><p><a href="##field.accept" class="smpl">Accept</a> and <a href="##field.accept-encoding" class="smpl">Accept-Encoding</a> are allowed in response messages; the latter was introduced by <a href="##RFC7694" id="rfc.xref.RFC7694.2"><cite title="Hypertext Transfer Protocol (HTTP) Client-Initiated Content-Encoding">[RFC7694]</cite></a>. (<a href="##request.content.negotiation" title="Request Content Negotiation">Section 12.3</a>)</p></div><div id="rfc.section.B.3.p.14"><p>"Accept Parameters" (accept-params and accept-ext ABNF production) have been removed from the definition of the Accept field. (<a href="##field.accept" id="rfc.xref.field.accept.7" title="Accept">Section 12.5.1</a>)</p></div><div id="rfc.section.B.3.p.15"><p>The Accept-Charset field is now deprecated. (<a href="##field.accept-charset" id="rfc.xref.field.accept-charset.2" title="Accept-Charset">Section 12.5.2</a>)</p></div><div id="rfc.section.B.3.p.16"><p>The semantics of "*" in the <a href="##field.vary" class="smpl">Vary</a> header field when other values are present was clarified. (<a href="##field.vary" id="rfc.xref.field.vary.6" title="Vary">Section 12.5.5</a>)</p></div><div id="rfc.section.B.3.p.17"><p>Range units are compared in a case-insensitive fashion. (<a href="##range.units" title="Range Units">Section 14.1</a>)</p></div><div id="rfc.section.B.3.p.18"><p>The use of the Accept-Ranges field is not restricted to origin servers. (<a href="##field.accept-ranges" id="rfc.xref.field.accept-ranges.4" title="Accept-Ranges">Section 14.3</a>)</p></div><div id="rfc.section.B.3.p.19"><p>The process of creating a redirected request has been clarified. (<a href="##status.3xx" id="rfc.xref.status.3xx.3" title="Redirection 3xx">Section 15.4</a>)</p></div><div id="rfc.section.B.3.p.20"><p>Status code 308 (previously defined in <a href="##RFC7538" id="rfc.xref.RFC7538.4"><cite title="The Hypertext Transfer Protocol Status Code 308 (Permanent Redirect)">[RFC7538]</cite></a>) has been added so that it's defined closer to status codes 301, 302, and 307. (<a href="##status.308" id="rfc.xref.status.308.2" title="308 Permanent Redirect">Section 15.4.9</a>)</p></div><div id="rfc.section.B.3.p.21"><p>Status code 421 (previously defined in <a href="https://www.rfc-editor.org/rfc/rfc7540.html#section-9.1.2">Section 9.1.2</a> of <a href="##RFC7540" id="rfc.xref.RFC7540.1"><cite title="Hypertext Transfer Protocol Version 2 (HTTP/2)">[RFC7540]</cite></a>) has been added because of its general applicability. 421 is no longer defined as heuristically cacheable since the response is specific to the connection (not the target resource). (<a href="##status.421" id="rfc.xref.status.421.3" title="421 Misdirected Request">Section 15.5.20</a>)</p></div><div id="rfc.section.B.3.p.22"><p>Status code 422 (previously defined in <a href="https://www.rfc-editor.org/rfc/rfc4918.html#section-11.2">Section 11.2</a> of <a href="##WEBDAV" id="rfc.xref.WEBDAV.3"><cite title="HTTP Extensions for Web Distributed Authoring and Versioning (WebDAV)">[WEBDAV]</cite></a>) has been added because of its general applicability. (<a href="##status.422" id="rfc.xref.status.422.2" title="422 Unprocessable Content">Section 15.5.21</a>)</p></div></section><section id="changes.from.rfc.7232"><h3 id="rfc.section.B.4"><a href="##rfc.section.B.4">B.4.</a>&nbsp;<a href="##changes.from.rfc.7232">Changes from RFC 7232</a></h3><div id="rfc.section.B.4.p.1"><p>Previous revisions of HTTP imposed an arbitrary 60-second limit on the determination of whether Last-Modified was a strong validator to guard against the possibility that the Date and Last-Modified values are generated from different clocks or at somewhat different times during the preparation of the response. This specification has relaxed that to allow reasonable discretion. (<a href="##lastmod.comparison" title="Comparison">Section 8.8.2.2</a>)</p></div><div id="rfc.section.B.4.p.2"><p>An edge-case requirement on If-Match and If-Unmodified-Since has been removed that required a validator not to be sent in a 2xx response if validation fails because the change request has already been applied. (Sections <a href="##field.if-match" id="rfc.xref.field.if-match.3" title="If-Match">13.1.1</a> and <a href="##field.if-unmodified-since" id="rfc.xref.field.if-unmodified-since.3" title="If-Unmodified-Since">13.1.4</a>)</p></div><div id="rfc.section.B.4.p.3"><p>The fact that If-Unmodified-Since does not apply to a resource without a concept of modification time has been clarified. (<a href="##field.if-unmodified-since" id="rfc.xref.field.if-unmodified-since.4" title="If-Unmodified-Since">Section 13.1.4</a>)</p></div><div id="rfc.section.B.4.p.4"><p>Preconditions can now be evaluated before the request content is processed rather than waiting until the response would otherwise be successful. (<a href="##evaluation" title="Evaluation of Preconditions">Section 13.2</a>)</p></div></section><section id="changes.from.rfc.7233"><h3 id="rfc.section.B.5"><a href="##rfc.section.B.5">B.5.</a>&nbsp;<a href="##changes.from.rfc.7233">Changes from RFC 7233</a></h3><div id="rfc.section.B.5.p.1"><p>Refactored the range-unit and ranges-specifier grammars to simplify and reduce artificial distinctions between bytes and other (extension) range units, removing the overlapping grammar of other-range-unit by defining range units generically as a token and placing extensions within the scope of a range-spec (other-range). This disambiguates the role of list syntax (commas) in all range sets, including extension range units, for indicating a range-set of more than one range. Moving the extension grammar into range specifiers also allows protocol specific to byte ranges to be specified separately.</p></div><div id="rfc.section.B.5.p.2"><p>It is now possible to define Range handling on extension methods. (<a href="##field.range" id="rfc.xref.field.range.6" title="Range">Section 14.2</a>)</p></div><div id="rfc.section.B.5.p.3"><p>Described use of the <a href="##field.content-range" class="smpl">Content-Range</a> header field (<a href="##field.content-range" id="rfc.xref.field.content-range.7" title="Content-Range">Section 14.4</a>) as a request modifier to perform a partial PUT. (<a href="##partial.PUT" title="Partial PUT">Section 14.5</a>)</p></div></section><section id="changes.from.rfc.7235"><h3 id="rfc.section.B.6"><a href="##rfc.section.B.6">B.6.</a>&nbsp;<a href="##changes.from.rfc.7235">Changes from RFC 7235</a></h3><div id="rfc.section.B.6.p.1"><p>None.</p></div></section><section id="changes.from.rfc.7538"><h3 id="rfc.section.B.7"><a href="##rfc.section.B.7">B.7.</a>&nbsp;<a href="##changes.from.rfc.7538">Changes from RFC 7538</a></h3><div id="rfc.section.B.7.p.1"><p>None.</p></div></section><section id="changes.from.rfc.7615"><h3 id="rfc.section.B.8"><a href="##rfc.section.B.8">B.8.</a>&nbsp;<a href="##changes.from.rfc.7615">Changes from RFC 7615</a></h3><div id="rfc.section.B.8.p.1"><p>None.</p></div></section><section id="changes.from.rfc.7694"><h3 id="rfc.section.B.9"><a href="##rfc.section.B.9">B.9.</a>&nbsp;<a href="##changes.from.rfc.7694">Changes from RFC 7694</a></h3><div id="rfc.section.B.9.p.1"><p>This specification includes the extension defined in <a href="##RFC7694" id="rfc.xref.RFC7694.3"><cite title="Hypertext Transfer Protocol (HTTP) Client-Initiated Content-Encoding">[RFC7694]</cite></a> but leaves out examples and deployment considerations.</p></div></section></section><section id="acks"><h2 id="rfc.section.unnumbered-1"><a href="##acks">Acknowledgements</a></h2><div id="rfc.section.unnumbered-1.p.1"><p>Aside from the current editors, the following individuals deserve special recognition for their contributions to early aspects of HTTP and its core specifications: Marc Andreessen, Tim Berners-Lee, Robert Cailliau, Daniel W. Connolly, Bob Denny, John Franks, Jim Gettys, Jean-François Groff, Phillip M. Hallam-Baker, Koen Holtman, Jeffery L. Hostetler, Shel Kaphan, Dave Kristol, Yves Lafon, Scott D. Lawrence, Paul J. Leach, Håkon W. Lie, Ari Luotonen, Larry Masinter, Rob McCool, Jeffrey C. Mogul, Lou Montulli, David Morris, Henrik Frystyk Nielsen, Dave Raggett, Eric Rescorla, Tony Sanders, Lawrence C. Stewart, Marc VanHeyningen, and Steve Zilles.</p></div><div id="rfc.section.unnumbered-1.p.2"><p>This document builds on the many contributions that went into past specifications of HTTP, including <a href="##HTTP10" id="rfc.xref.HTTP10.3"><cite title="Hypertext Transfer Protocol -- HTTP/1.0">[HTTP/1.0]</cite></a>, <a href="##RFC2068" id="rfc.xref.RFC2068.4"><cite title="Hypertext Transfer Protocol -- HTTP/1.1">[RFC2068]</cite></a>, <a href="##RFC2145" id="rfc.xref.RFC2145.1"><cite title="Use and Interpretation of HTTP Version Numbers">[RFC2145]</cite></a>, <a href="##RFC2616" id="rfc.xref.RFC2616.5"><cite title="Hypertext Transfer Protocol -- HTTP/1.1">[RFC2616]</cite></a>, <a href="##RFC2617" id="rfc.xref.RFC2617.1"><cite title="HTTP Authentication: Basic and Digest Access Authentication">[RFC2617]</cite></a>, <a href="##RFC2818" id="rfc.xref.RFC2818.2"><cite title="HTTP Over TLS">[RFC2818]</cite></a>, <a href="##RFC7230" id="rfc.xref.RFC7230.5"><cite title="Hypertext Transfer Protocol (HTTP/1.1): Message Syntax and Routing">[RFC7230]</cite></a>, <a href="##RFC7231" id="rfc.xref.RFC7231.4"><cite title="Hypertext Transfer Protocol (HTTP/1.1): Semantics and Content">[RFC7231]</cite></a>, <a href="##RFC7232" id="rfc.xref.RFC7232.2"><cite title="Hypertext Transfer Protocol (HTTP/1.1): Conditional Requests">[RFC7232]</cite></a>, <a href="##RFC7233" id="rfc.xref.RFC7233.2"><cite title="Hypertext Transfer Protocol (HTTP/1.1): Range Requests">[RFC7233]</cite></a>, <a href="##RFC7234" id="rfc.xref.RFC7234.1"><cite title="Hypertext Transfer Protocol (HTTP/1.1): Caching">[RFC7234]</cite></a>, and <a href="##RFC7235" id="rfc.xref.RFC7235.3"><cite title="Hypertext Transfer Protocol (HTTP/1.1): Authentication">[RFC7235]</cite></a>. The acknowledgements within those documents still apply.</p></div><div id="rfc.section.unnumbered-1.p.3" class="avoidbreakafter"><p>Since 2014, the following contributors have helped improve this specification by reporting bugs, asking smart questions, drafting or reviewing text, and evaluating issues:</p></div><div id="rfc.section.unnumbered-1.p.4"><p>Alan Egerton, Alex Rousskov, Amichai Rothman, Amos Jeffries, Anders Kaseorg, Andreas Gebhardt, Anne van Kesteren, Armin Abfalterer, Aron Duby, Asanka Herath, Asbjørn Ulsberg, Asta Olofsson, Attila Gulyas, Austin Wright, Barry Pollard, Ben Burkert, Benjamin Kaduk, Björn Höhrmann, Brad Fitzpatrick, Chris Pacejo, Colin Bendell, Cory Benfield, Cory Nelson, Daisuke Miyakawa, Dale Worley, Daniel Stenberg, Danil Suits, David Benjamin, David Matson, David Schinazi, Дилян Палаузов (Dilyan Palauzov), Eric Anderson, Eric Rescorla, Éric Vyncke, Erik Kline, Erwin Pe, Etan Kissling, Evert Pot, Evgeny Vrublevsky, Florian Best, Francesca Palombini, Igor Lubashev, James Callahan, James Peach, Jeffrey Yasskin, Kalin Gyokov, Kannan Goundan, 奥 一穂 (Kazuho Oku), Ken Murchison, Krzysztof Maczyński, Lars Eggert, Lucas Pardue, Martin Duke, Martin Dürst, Martin Thomson, Martynas Jusevičius, Matt Menke, Matthias Pigulla, Mattias Grenfeldt, Michael Osipov, Mike Bishop, Mike Pennisi, Mike Taylor, Mike West, Mohit Sethi, Murray Kucherawy, Nathaniel J. Smith, Nicholas Hurley, Nikita Prokhorov, Patrick McManus, Piotr Sikora, Poul-Henning Kamp, Rick van Rein, Robert Wilton, Roberto Polli, Roman Danyliw, Samuel Williams, Semyon Kholodnov, Simon Pieters, Simon Schüppel, Stefan Eissing, Taylor Hunt, Todd Greer, Tommy Pauly, Vasiliy Faronov, Vladimir Lashchev, Wenbo Zhu, William A. Rowe Jr., Willy Tarreau, Xingwei Liu, Yishuai Li, and Zaheduzzaman Sarker.</p></div></section><section id="rfc.index"><h2><a href="##rfc.index">Index</a></h2><p class="hidden-print"><a href="##rfc.index.1">1</a> <a href="##rfc.index.2">2</a> <a href="##rfc.index.3">3</a> <a href="##rfc.index.4">4</a> <a href="##rfc.index.5">5</a> <a href="##rfc.index.A">A</a> <a href="##rfc.index.B">B</a> <a href="##rfc.index.C">C</a> <a href="##rfc.index.D">D</a> <a href="##rfc.index.E">E</a> <a href="##rfc.index.F">F</a> <a href="##rfc.index.G">G</a> <a href="##rfc.index.H">H</a> <a href="##rfc.index.I">I</a> <a href="##rfc.index.K">K</a> <a href="##rfc.index.L">L</a> <a href="##rfc.index.M">M</a> <a href="##rfc.index.N">N</a> <a href="##rfc.index.O">O</a> <a href="##rfc.index.P">P</a> <a href="##rfc.index.R">R</a> <a href="##rfc.index.S">S</a> <a href="##rfc.index.T">T</a> <a href="##rfc.index.U">U</a> <a href="##rfc.index.V">V</a> <a href="##rfc.index.W">W</a> <a href="##rfc.index.X">X</a> </p><div class="print2col"><ul class="ind"><li><a id="rfc.index.1" href="##rfc.index.1"><b>1</b></a><ul><li>100 Continue (status code)&nbsp;&nbsp;<a href="##rfc.section.15.2.1"><b>15.2.1</b></a>, <a href="##rfc.xref.status.100.1">18.3</a></li><li>100-continue (expect value)&nbsp;&nbsp;<a href="##rfc.section.10.1.1"><b>10.1.1</b></a></li><li>101 Switching Protocols (status code)&nbsp;&nbsp;<a href="##rfc.section.15.2.2"><b>15.2.2</b></a>, <a href="##rfc.xref.status.101.1">18.3</a></li><li>1xx Informational (status code class)&nbsp;&nbsp;<a href="##rfc.section.15.2"><b>15.2</b></a></li></ul></li><li><a id="rfc.index.2" href="##rfc.index.2"><b>2</b></a><ul><li>200 OK (status code)&nbsp;&nbsp;<a href="##rfc.section.15.3.1"><b>15.3.1</b></a>, <a href="##rfc.xref.status.200.1">18.3</a></li><li>201 Created (status code)&nbsp;&nbsp;<a href="##rfc.section.15.3.2"><b>15.3.2</b></a>, <a href="##rfc.xref.status.201.1">18.3</a></li><li>202 Accepted (status code)&nbsp;&nbsp;<a href="##rfc.section.15.3.3"><b>15.3.3</b></a>, <a href="##rfc.xref.status.202.1">18.3</a></li><li>203 Non-Authoritative Information (status code)&nbsp;&nbsp;<a href="##rfc.xref.status.203.1">7.7</a>, <a href="##rfc.section.15.3.4"><b>15.3.4</b></a>, <a href="##rfc.xref.status.203.2">18.3</a></li><li>204 No Content (status code)&nbsp;&nbsp;<a href="##rfc.section.15.3.5"><b>15.3.5</b></a>, <a href="##rfc.xref.status.204.1">18.3</a></li><li>205 Reset Content (status code)&nbsp;&nbsp;<a href="##rfc.section.15.3.6"><b>15.3.6</b></a>, <a href="##rfc.xref.status.205.1">18.3</a></li><li>206 Partial Content (status code)&nbsp;&nbsp;<a href="##rfc.xref.status.206.1">6.4.1</a>, <a href="##rfc.xref.status.206.2">8.3.3</a>, <a href="##rfc.xref.status.206.3">14.2</a>, <a href="##rfc.section.15.3.7"><b>15.3.7</b></a>, <a href="##rfc.xref.status.206.4">18.3</a></li><li>2xx Successful (status code class)&nbsp;&nbsp;<a href="##rfc.section.15.3"><b>15.3</b></a></li></ul></li><li><a id="rfc.index.3" href="##rfc.index.3"><b>3</b></a><ul><li>300 Multiple Choices (status code)&nbsp;&nbsp;<a href="##rfc.section.15.4.1"><b>15.4.1</b></a>, <a href="##rfc.xref.status.300.1">15.5.7</a>, <a href="##rfc.xref.status.300.2">18.3</a></li><li>301 Moved Permanently (status code)&nbsp;&nbsp;<a href="##rfc.section.15.4.2"><b>15.4.2</b></a>, <a href="##rfc.xref.status.301.1">18.3</a></li><li>302 Found (status code)&nbsp;&nbsp;<a href="##rfc.section.15.4.3"><b>15.4.3</b></a>, <a href="##rfc.xref.status.302.1">18.3</a></li><li>303 See Other (status code)&nbsp;&nbsp;<a href="##rfc.section.15.4.4"><b>15.4.4</b></a>, <a href="##rfc.xref.status.303.1">18.3</a></li><li>304 Not Modified (status code)&nbsp;&nbsp;<a href="##rfc.xref.status.304.1">8.6</a>, <a href="##rfc.section.15.4.5"><b>15.4.5</b></a>, <a href="##rfc.xref.status.304.2">18.3</a></li><li>305 Use Proxy (status code)&nbsp;&nbsp;<a href="##rfc.section.15.4.6"><b>15.4.6</b></a>, <a href="##rfc.xref.status.305.1">18.3</a></li><li>306 (Unused) (status code)&nbsp;&nbsp;<a href="##rfc.section.15.4.7"><b>15.4.7</b></a>, <a href="##rfc.xref.status.306.1">18.3</a></li><li>307 Temporary Redirect (status code)&nbsp;&nbsp;<a href="##rfc.section.15.4.8"><b>15.4.8</b></a>, <a href="##rfc.xref.status.307.1">18.3</a></li><li>308 Permanent Redirect (status code)&nbsp;&nbsp;<a href="##rfc.section.15.4.9"><b>15.4.9</b></a>, <a href="##rfc.xref.status.308.1">18.3</a>, <a href="##rfc.xref.status.308.2">B.3</a></li><li>3xx Redirection (status code class)&nbsp;&nbsp;<a href="##rfc.xref.status.3xx.1">7.8</a>, <a href="##rfc.section.15.4"><b>15.4</b></a>, <a href="##rfc.xref.status.3xx.2">16.3.2</a>, <a href="##rfc.xref.status.3xx.3">B.3</a></li></ul></li><li><a id="rfc.index.4" href="##rfc.index.4"><b>4</b></a><ul><li>400 Bad Request (status code)&nbsp;&nbsp;<a href="##rfc.section.15.5.1"><b>15.5.1</b></a>, <a href="##rfc.xref.status.400.1">18.3</a></li><li>401 Unauthorized (status code)&nbsp;&nbsp;<a href="##rfc.section.15.5.2"><b>15.5.2</b></a>, <a href="##rfc.xref.status.401.1">18.3</a></li><li>402 Payment Required (status code)&nbsp;&nbsp;<a href="##rfc.section.15.5.3"><b>15.5.3</b></a>, <a href="##rfc.xref.status.402.1">18.3</a></li><li>403 Forbidden (status code)&nbsp;&nbsp;<a href="##rfc.xref.status.403.1">11.4</a>, <a href="##rfc.section.15.5.4"><b>15.5.4</b></a>, <a href="##rfc.xref.status.403.2">18.3</a></li><li>404 Not Found (status code)&nbsp;&nbsp;<a href="##rfc.section.15.5.5"><b>15.5.5</b></a>, <a href="##rfc.xref.status.404.1">18.3</a></li><li>405 Method Not Allowed (status code)&nbsp;&nbsp;<a href="##rfc.section.15.5.6"><b>15.5.6</b></a>, <a href="##rfc.xref.status.405.1">18.3</a></li><li>406 Not Acceptable (status code)&nbsp;&nbsp;<a href="##rfc.section.15.5.7"><b>15.5.7</b></a>, <a href="##rfc.xref.status.406.1">18.3</a></li><li>407 Proxy Authentication Required (status code)&nbsp;&nbsp;<a href="##rfc.section.15.5.8"><b>15.5.8</b></a>, <a href="##rfc.xref.status.407.1">18.3</a></li><li>408 Request Timeout (status code)&nbsp;&nbsp;<a href="##rfc.section.15.5.9"><b>15.5.9</b></a>, <a href="##rfc.xref.status.408.1">18.3</a></li><li>409 Conflict (status code)&nbsp;&nbsp;<a href="##rfc.section.15.5.10"><b>15.5.10</b></a>, <a href="##rfc.xref.status.409.1">18.3</a></li><li>410 Gone (status code)&nbsp;&nbsp;<a href="##rfc.section.15.5.11"><b>15.5.11</b></a>, <a href="##rfc.xref.status.410.1">18.3</a></li><li>411 Length Required (status code)&nbsp;&nbsp;<a href="##rfc.section.15.5.12"><b>15.5.12</b></a>, <a href="##rfc.xref.status.411.1">18.3</a></li><li>412 Precondition Failed (status code)&nbsp;&nbsp;<a href="##rfc.section.15.5.13"><b>15.5.13</b></a>, <a href="##rfc.xref.status.412.1">18.3</a></li><li>413 Content Too Large (status code)&nbsp;&nbsp;<a href="##rfc.section.15.5.14"><b>15.5.14</b></a>, <a href="##rfc.xref.status.413.1">17.5</a>, <a href="##rfc.xref.status.413.2">18.3</a></li><li>414 URI Too Long (status code)&nbsp;&nbsp;<a href="##rfc.section.15.5.15"><b>15.5.15</b></a>, <a href="##rfc.xref.status.414.1">17.5</a>, <a href="##rfc.xref.status.414.2">18.3</a></li><li>415 Unsupported Media Type (status code)&nbsp;&nbsp;<a href="##rfc.section.15.5.16"><b>15.5.16</b></a>, <a href="##rfc.xref.status.415.1">18.3</a></li><li>416 Range Not Satisfiable (status code)&nbsp;&nbsp;<a href="##rfc.section.15.5.17"><b>15.5.17</b></a>, <a href="##rfc.xref.status.416.1">18.3</a></li><li>417 Expectation Failed (status code)&nbsp;&nbsp;<a href="##rfc.section.15.5.18"><b>15.5.18</b></a>, <a href="##rfc.xref.status.417.1">18.3</a></li><li>418 (Unused) (status code)&nbsp;&nbsp;<a href="##rfc.section.15.5.19"><b>15.5.19</b></a>, <a href="##rfc.xref.status.418.1">18.3</a></li><li>421 Misdirected Request (status code)&nbsp;&nbsp;<a href="##rfc.xref.status.421.1">7.4</a>, <a href="##rfc.section.15.5.20"><b>15.5.20</b></a>, <a href="##rfc.xref.status.421.2">18.3</a>, <a href="##rfc.xref.status.421.3">B.3</a></li><li>422 Unprocessable Content (status code)&nbsp;&nbsp;<a href="##rfc.section.15.5.21"><b>15.5.21</b></a>, <a href="##rfc.xref.status.422.1">18.3</a>, <a href="##rfc.xref.status.422.2">B.3</a></li><li>426 Upgrade Required (status code)&nbsp;&nbsp;<a href="##rfc.section.15.5.22"><b>15.5.22</b></a>, <a href="##rfc.xref.status.426.1">18.3</a></li><li>4xx Client Error (status code class)&nbsp;&nbsp;<a href="##rfc.section.15.5"><b>15.5</b></a></li></ul></li><li><a id="rfc.index.5" href="##rfc.index.5"><b>5</b></a><ul><li>500 Internal Server Error (status code)&nbsp;&nbsp;<a href="##rfc.section.15.6.1"><b>15.6.1</b></a>, <a href="##rfc.xref.status.500.1">18.3</a></li><li>501 Not Implemented (status code)&nbsp;&nbsp;<a href="##rfc.section.15.6.2"><b>15.6.2</b></a>, <a href="##rfc.xref.status.501.1">18.3</a></li><li>502 Bad Gateway (status code)&nbsp;&nbsp;<a href="##rfc.section.15.6.3"><b>15.6.3</b></a>, <a href="##rfc.xref.status.502.1">18.3</a></li><li>503 Service Unavailable (status code)&nbsp;&nbsp;<a href="##rfc.section.15.6.4"><b>15.6.4</b></a>, <a href="##rfc.xref.status.503.1">18.3</a></li><li>504 Gateway Timeout (status code)&nbsp;&nbsp;<a href="##rfc.section.15.6.5"><b>15.6.5</b></a>, <a href="##rfc.xref.status.504.1">18.3</a></li><li>505 HTTP Version Not Supported (status code)&nbsp;&nbsp;<a href="##rfc.section.15.6.6"><b>15.6.6</b></a>, <a href="##rfc.xref.status.505.1">18.3</a></li><li>5xx Server Error (status code class)&nbsp;&nbsp;<a href="##rfc.section.15.6"><b>15.6</b></a></li></ul></li><li><a id="rfc.index.A" href="##rfc.index.A"><b>A</b></a><ul><li>accelerator&nbsp;&nbsp;<a href="##rfc.iref.a.1"><b>3.7</b></a></li><li>Accept header field&nbsp;&nbsp;<a href="##rfc.xref.field.accept.1">5.6.6</a>, <a href="##rfc.xref.field.accept.2">8.3.1</a>, <a href="##rfc.xref.field.accept.3">12.3</a>, <a href="##rfc.section.12.5.1"><b>12.5.1</b></a>, <a href="##rfc.xref.field.accept.4">15.5.16</a>, <a href="##rfc.xref.field.accept.5">18.4</a>, <a href="##rfc.xref.field.accept.6">18.8</a>, <a href="##rfc.xref.field.accept.7">B.3</a></li><li>Accept-Charset header field&nbsp;&nbsp;<a href="##rfc.iref.a.2"><b>12.5.2</b></a>, <a href="##rfc.xref.field.accept-charset.1">18.4</a>, <a href="##rfc.xref.field.accept-charset.2">B.3</a></li><li>Accept-Encoding header field&nbsp;&nbsp;<a href="##rfc.xref.field.accept-encoding.1">8.4.1</a>, <a href="##rfc.xref.field.accept-encoding.2">8.8.3.3</a>, <a href="##rfc.xref.field.accept-encoding.3">12.3</a>, <a href="##rfc.section.12.5.3"><b>12.5.3</b></a>, <a href="##rfc.xref.field.accept-encoding.4">15.5.16</a>, <a href="##rfc.xref.field.accept-encoding.5">18.4</a>, <a href="##rfc.xref.field.accept-encoding.6">18.6</a></li><li>Accept-Language header field&nbsp;&nbsp;<a href="##rfc.xref.field.accept-language.1">8.5.1</a>, <a href="##rfc.section.12.5.4"><b>12.5.4</b></a>, <a href="##rfc.xref.field.accept-language.2">18.4</a></li><li>Accept-Ranges header field&nbsp;&nbsp;<a href="##rfc.xref.field.accept-ranges.1">14.1</a>, <a href="##rfc.section.14.3"><b>14.3</b></a>, <a href="##rfc.xref.field.accept-ranges.2">18.4</a>, <a href="##rfc.xref.field.accept-ranges.3">18.7</a>, <a href="##rfc.xref.field.accept-ranges.4">B.3</a></li><li>Allow header field&nbsp;&nbsp;<a href="##rfc.xref.field.allow.1">9.1</a>, <a href="##rfc.section.10.2.1"><b>10.2.1</b></a>, <a href="##rfc.xref.field.allow.2">18.4</a></li><li><em>ALTSVC</em>&nbsp;&nbsp;<a href="##rfc.xref.ALTSVC.1">4.3.2</a>, <a href="##rfc.xref.ALTSVC.2">15.5.20</a>, <a href="##rfc.xref.ALTSVC.3">17.1</a>, <a href="##ALTSVC"><b>19.2</b></a></li><li>Authentication-Info header field&nbsp;&nbsp;<a href="##rfc.section.11.6.3"><b>11.6.3</b></a>, <a href="##rfc.xref.field.authentication-info.1">18.4</a></li><li>authoritative response&nbsp;&nbsp;<a href="##rfc.section.17.1"><b>17.1</b></a></li><li>Authorization header field&nbsp;&nbsp;<a href="##rfc.section.11.6.2"><b>11.6.2</b></a>, <a href="##rfc.xref.field.authorization.1">11.6.3</a>, <a href="##rfc.xref.field.authorization.2">12.5.5</a>, <a href="##rfc.xref.field.authorization.3">15.5.2</a>, <a href="##rfc.xref.field.authorization.4">18.4</a></li></ul></li><li><a id="rfc.index.B" href="##rfc.index.B"><b>B</b></a><ul><li><em>BREACH</em>&nbsp;&nbsp;<a href="##rfc.xref.BREACH.1">17.6</a>, <a href="##BREACH"><b>19.2</b></a></li><li>browser&nbsp;&nbsp;<a href="##rfc.section.3.5"><b>3.5</b></a></li><li><em>Bujlow</em>&nbsp;&nbsp;<a href="##rfc.xref.Bujlow.1">17.13</a>, <a href="##Bujlow"><b>19.2</b></a></li></ul></li><li><a id="rfc.index.C" href="##rfc.index.C"><b>C</b></a><ul><li>cache&nbsp;&nbsp;<a href="##rfc.section.3.8"><b>3.8</b></a></li><li>cacheable&nbsp;&nbsp;<a href="##rfc.iref.c.2"><b>3.8</b></a></li><li><em>CACHING</em>&nbsp;&nbsp;<a href="##rfc.xref.CACHING.1">1.2</a>, <a href="##rfc.xref.CACHING.2">2.5</a>, <a href="##rfc.xref.CACHING.3">3.8</a>, <a href="##rfc.xref.CACHING.4">4.3.2</a>, <a href="##rfc.xref.CACHING.5">4.3.3</a>, <a href="##rfc.xref.CACHING.6">5.6.7</a>, <a href="##rfc.xref.CACHING.7">7.3.1</a>, <a href="##rfc.xref.CACHING.8">7.6.1</a>, <a href="##rfc.xref.CACHING.9">7.7</a>, <a href="##rfc.xref.CACHING.10">8.8.2.1</a>, <a href="##rfc.xref.CACHING.11">8.8.3.1</a>, <a href="##rfc.xref.CACHING.12">9.2.3</a>, <a href="##rfc.xref.CACHING.13">9.3.1</a>, <a href="##rfc.xref.CACHING.14">9.3.2</a>, <a href="##rfc.xref.CACHING.15">9.3.2</a>, <a href="##rfc.xref.CACHING.16">9.3.3</a>, <a href="##rfc.xref.CACHING.17">9.3.3</a>, <a href="##rfc.xref.CACHING.18">9.3.4</a>, <a href="##rfc.xref.CACHING.19">9.3.5</a>, <a href="##rfc.xref.CACHING.20">11.6.2</a>, <a href="##rfc.xref.CACHING.21">12.5.5</a>, <a href="##rfc.xref.CACHING.22">12.5.5</a>, <a href="##rfc.xref.CACHING.23">13</a>, <a href="##rfc.xref.CACHING.24">13.1.2</a>, <a href="##rfc.xref.CACHING.25">13.1.3</a>, <a href="##rfc.xref.CACHING.26">15.1</a>, <a href="##rfc.xref.CACHING.27">15.3.1</a>, <a href="##rfc.xref.CACHING.28">15.3.4</a>, <a href="##rfc.xref.CACHING.29">15.3.5</a>, <a href="##rfc.xref.CACHING.30">15.3.7</a>, <a href="##rfc.xref.CACHING.31">15.4.1</a>, <a href="##rfc.xref.CACHING.32">15.4.2</a>, <a href="##rfc.xref.CACHING.33">15.4.5</a>, <a href="##rfc.xref.CACHING.34">15.4.5</a>, <a href="##rfc.xref.CACHING.35">15.4.9</a>, <a href="##rfc.xref.CACHING.36">15.5.5</a>, <a href="##rfc.xref.CACHING.37">15.5.6</a>, <a href="##rfc.xref.CACHING.38">15.5.11</a>, <a href="##rfc.xref.CACHING.39">15.5.15</a>, <a href="##rfc.xref.CACHING.40">15.6.2</a>, <a href="##rfc.xref.CACHING.41">16</a>, <a href="##rfc.xref.CACHING.42">16.2.2</a>, <a href="##rfc.xref.CACHING.43">16.4.2</a>, <a href="##rfc.xref.CACHING.44">17</a>, <a href="##rfc.xref.CACHING.45">17.2</a>, <a href="##CACHING"><b>19.1</b></a><ul><li><em>Section 3.5</em>&nbsp;&nbsp;<a href="##rfc.xref.CACHING.20">11.6.2</a></li><li><em>Section 4</em>&nbsp;&nbsp;<a href="##rfc.xref.CACHING.17">9.3.3</a></li><li><em>Section 4.1</em>&nbsp;&nbsp;<a href="##rfc.xref.CACHING.21">12.5.5</a></li><li><em>Section 4.2</em>&nbsp;&nbsp;<a href="##rfc.xref.CACHING.6">5.6.7</a></li><li><em>Section 4.2.1</em>&nbsp;&nbsp;<a href="##rfc.xref.CACHING.16">9.3.3</a></li><li><em>Section 4.2.2</em>&nbsp;&nbsp;<a href="##rfc.xref.CACHING.27">15.3.1</a>, <a href="##rfc.xref.CACHING.28">15.3.4</a>, <a href="##rfc.xref.CACHING.29">15.3.5</a>, <a href="##rfc.xref.CACHING.30">15.3.7</a>, <a href="##rfc.xref.CACHING.31">15.4.1</a>, <a href="##rfc.xref.CACHING.32">15.4.2</a>, <a href="##rfc.xref.CACHING.35">15.4.9</a>, <a href="##rfc.xref.CACHING.36">15.5.5</a>, <a href="##rfc.xref.CACHING.37">15.5.6</a>, <a href="##rfc.xref.CACHING.38">15.5.11</a>, <a href="##rfc.xref.CACHING.39">15.5.15</a>, <a href="##rfc.xref.CACHING.40">15.6.2</a></li><li><em>Section 4.3.2</em>&nbsp;&nbsp;<a href="##rfc.xref.CACHING.24">13.1.2</a>, <a href="##rfc.xref.CACHING.25">13.1.3</a></li><li><em>Section 4.3.4</em>&nbsp;&nbsp;<a href="##rfc.xref.CACHING.34">15.4.5</a></li><li><em>Section 4.3.5</em>&nbsp;&nbsp;<a href="##rfc.xref.CACHING.15">9.3.2</a></li><li><em>Section 4.4</em>&nbsp;&nbsp;<a href="##rfc.xref.CACHING.18">9.3.4</a>, <a href="##rfc.xref.CACHING.19">9.3.5</a></li><li><em>Section 5.2</em>&nbsp;&nbsp;<a href="##rfc.xref.CACHING.8">7.6.1</a>, <a href="##rfc.xref.CACHING.13">9.3.1</a>, <a href="##rfc.xref.CACHING.14">9.3.2</a>, <a href="##rfc.xref.CACHING.22">12.5.5</a></li><li><em>Section 5.2.2.6</em>&nbsp;&nbsp;<a href="##rfc.xref.CACHING.9">7.7</a></li><li><em>Section 5.2.2.7</em>&nbsp;&nbsp;<a href="##rfc.xref.CACHING.43">16.4.2</a></li><li><em>Section 5.2.3</em>&nbsp;&nbsp;<a href="##rfc.xref.CACHING.41">16</a></li><li><em>Section 7</em>&nbsp;&nbsp;<a href="##rfc.xref.CACHING.44">17</a>, <a href="##rfc.xref.CACHING.45">17.2</a></li></ul></li><li>client&nbsp;&nbsp;<a href="##rfc.section.3.3"><b>3.3</b></a></li><li>clock&nbsp;&nbsp;<a href="##rfc.section.5.6.7"><b>5.6.7</b></a></li><li>complete&nbsp;&nbsp;<a href="##rfc.section.6.1"><b>6.1</b></a></li><li>compress (Coding Format)&nbsp;&nbsp;<a href="##rfc.section.8.4.1.1">8.4.1.1</a></li><li>compress (content coding)&nbsp;&nbsp;<a href="##rfc.section.8.4.1"><b>8.4.1</b></a></li><li>conditional request&nbsp;&nbsp;<a href="##rfc.section.13"><b>13</b></a></li><li>CONNECT method&nbsp;&nbsp;<a href="##rfc.xref.CONNECT.1">3.3</a>, <a href="##rfc.xref.CONNECT.2">6.4.1</a>, <a href="##rfc.xref.CONNECT.3">7.1</a>, <a href="##rfc.xref.CONNECT.4">8.6</a>, <a href="##rfc.xref.CONNECT.5">9.1</a>, <a href="##rfc.section.9.3.6"><b>9.3.6</b></a>, <a href="##rfc.xref.CONNECT.6">16</a>, <a href="##rfc.extref.c.100">16.1.2</a>, <a href="##rfc.xref.CONNECT.7">18.2</a></li><li>connection&nbsp;&nbsp;<a href="##rfc.section.3.3"><b>3.3</b></a></li><li>Connection header field&nbsp;&nbsp;<a href="##rfc.xref.field.connection.1">5.1</a>, <a href="##rfc.xref.field.connection.2">7.6</a>, <a href="##rfc.section.7.6.1"><b>7.6.1</b></a>, <a href="##rfc.xref.field.connection.3">7.8</a>, <a href="##rfc.xref.field.connection.4">10.1.4</a>, <a href="##rfc.xref.field.connection.5">15.4</a>, <a href="##rfc.xref.field.connection.6">16.3.2</a>, <a href="##rfc.xref.field.connection.7">18.4</a></li><li>content&nbsp;&nbsp;<a href="##rfc.section.6.4">6.4</a></li><li>content coding&nbsp;&nbsp;<a href="##rfc.section.8.4.1"><b>8.4.1</b></a></li><li>content negotiation&nbsp;&nbsp;<a href="##rfc.iref.c.1">1.3</a></li><li>Content-Encoding header field&nbsp;&nbsp;<a href="##rfc.section.8.4"><b>8.4</b></a>, <a href="##rfc.xref.field.content-encoding.1">8.4.1</a>, <a href="##rfc.xref.field.content-encoding.2">18.4</a></li><li>Content-Language header field&nbsp;&nbsp;<a href="##rfc.section.8.5"><b>8.5</b></a>, <a href="##rfc.xref.field.content-language.1">18.4</a></li><li>Content-Length header field&nbsp;&nbsp;<a href="##rfc.section.8.6"><b>8.6</b></a>, <a href="##rfc.xref.field.content-length.1">15.5.12</a>, <a href="##rfc.xref.field.content-length.2">18.4</a></li><li>Content-Location header field&nbsp;&nbsp;<a href="##rfc.section.8.7"><b>8.7</b></a>, <a href="##rfc.xref.field.content-location.1">9.3.3</a>, <a href="##rfc.xref.field.content-location.2">10.2.2</a>, <a href="##rfc.xref.field.content-location.3">18.4</a></li><li>Content-MD5 header field&nbsp;&nbsp;<a href="##rfc.iref.c.3"><b>18.4</b></a></li><li>Content-Range header field&nbsp;&nbsp;<a href="##rfc.xref.field.content-range.1">9.3.4</a>, <a href="##rfc.xref.field.content-range.2">14.1</a>, <a href="##rfc.section.14.4"><b>14.4</b></a>, <a href="##rfc.section.14.5">14.5</a>, <a href="##rfc.xref.field.content-range.3">14.5</a>, <a href="##rfc.xref.field.content-range.4">15.5.17</a>, <a href="##rfc.xref.field.content-range.5">18.4</a>, <a href="##rfc.xref.field.content-range.6">B.3</a>, <a href="##rfc.xref.field.content-range.7">B.5</a></li><li>Content-Type header field&nbsp;&nbsp;<a href="##rfc.xref.field.content-type.1">5.5</a>, <a href="##rfc.section.8.3"><b>8.3</b></a>, <a href="##rfc.xref.field.content-type.2">8.3.1</a>, <a href="##rfc.xref.field.content-type.3">18.4</a></li><li>control data&nbsp;&nbsp;<a href="##rfc.section.6.2"><b>6.2</b></a></li><li><em>COOKIE</em>&nbsp;&nbsp;<a href="##rfc.xref.COOKIE.1">4.2.2</a>, <a href="##rfc.xref.COOKIE.2">5.3</a>, <a href="##rfc.xref.COOKIE.3">9.3.8</a>, <a href="##rfc.xref.COOKIE.4">11.4</a>, <a href="##COOKIE"><b>19.2</b></a></li></ul></li><li><a id="rfc.index.D" href="##rfc.index.D"><b>D</b></a><ul><li>Date header field&nbsp;&nbsp;<a href="##rfc.xref.field.date.1">5.1</a>, <a href="##rfc.xref.field.date.2">6.4.1</a>, <a href="##rfc.section.6.6.1"><b>6.6.1</b></a>, <a href="##rfc.xref.field.date.3">8.8.2.1</a>, <a href="##rfc.xref.field.date.4">18.4</a></li><li>deflate (Coding Format)&nbsp;&nbsp;<a href="##rfc.section.8.4.1.2">8.4.1.2</a></li><li>deflate (content coding)&nbsp;&nbsp;<a href="##rfc.section.8.4.1"><b>8.4.1</b></a></li><li>DELETE method&nbsp;&nbsp;<a href="##rfc.xref.DELETE.1">9.1</a>, <a href="##rfc.extref.d.39">9.2.2</a>, <a href="##rfc.iref.d.3"><b>9.3.5</b></a>, <a href="##rfc.xref.DELETE.2">18.2</a>, <a href="##rfc.xref.DELETE.3">B.3</a></li><li>Delimiters&nbsp;&nbsp;<a href="##rfc.iref.d.2">5.6.2</a></li><li>downstream&nbsp;&nbsp;<a href="##rfc.iref.d.1"><b>3.7</b></a></li></ul></li><li><a id="rfc.index.E" href="##rfc.index.E"><b>E</b></a><ul><li>effective request URI&nbsp;&nbsp;<a href="##rfc.iref.e.1"><b>7.1</b></a></li><li><em>Err1912</em>&nbsp;&nbsp;<a href="##rfc.xref.Err1912.1">8.3.2</a>, <a href="##Err1912"><b>19.2</b></a></li><li><em>Err5433</em>&nbsp;&nbsp;<a href="##rfc.xref.Err5433.1">8.3.2</a>, <a href="##Err5433"><b>19.2</b></a></li><li>ETag field&nbsp;&nbsp;<a href="##rfc.xref.field.etag.1">8.8</a>, <a href="##rfc.section.8.8.3"><b>8.8.3</b></a>, <a href="##rfc.xref.field.etag.2">18.4</a></li><li>Expect header field&nbsp;&nbsp;<a href="##rfc.xref.field.expect.1">7.8</a>, <a href="##rfc.section.10.1.1"><b>10.1.1</b></a>, <a href="##rfc.xref.field.expect.2">15.2.1</a>, <a href="##rfc.xref.field.expect.3">15.5.18</a>, <a href="##rfc.xref.field.expect.4">18.4</a>, <a href="##rfc.xref.field.expect.5">B.3</a></li></ul></li><li><a id="rfc.index.F" href="##rfc.index.F"><b>F</b></a><ul><li>field&nbsp;&nbsp;<a href="##rfc.section.5"><b>5</b></a>, <a href="##rfc.section.6.3">6.3</a></li><li>field line&nbsp;&nbsp;<a href="##rfc.iref.f.1">5.2</a></li><li>field line value&nbsp;&nbsp;<a href="##rfc.iref.f.3">5.2</a></li><li>field name&nbsp;&nbsp;<a href="##rfc.iref.f.2">5.2</a></li><li>field value&nbsp;&nbsp;<a href="##rfc.iref.f.4">5.2</a></li><li>Fields&nbsp;&nbsp;<ul><li>*&nbsp;&nbsp;<a href="##rfc.iref.f.6"><b>18.4</b></a></li><li>Accept&nbsp;&nbsp;<a href="##rfc.xref.field.accept.1">5.6.6</a>, <a href="##rfc.xref.field.accept.2">8.3.1</a>, <a href="##rfc.xref.field.accept.3">12.3</a>, <a href="##rfc.section.12.5.1"><b>12.5.1</b></a>, <a href="##rfc.xref.field.accept.4">15.5.16</a>, <a href="##rfc.xref.field.accept.5">18.4</a>, <a href="##rfc.xref.field.accept.6">18.8</a>, <a href="##rfc.xref.field.accept.7">B.3</a></li><li>Accept-Charset&nbsp;&nbsp;<a href="##rfc.iref.f.5"><b>12.5.2</b></a>, <a href="##rfc.xref.field.accept-charset.1">18.4</a>, <a href="##rfc.xref.field.accept-charset.2">B.3</a></li><li>Accept-Encoding&nbsp;&nbsp;<a href="##rfc.xref.field.accept-encoding.1">8.4.1</a>, <a href="##rfc.xref.field.accept-encoding.2">8.8.3.3</a>, <a href="##rfc.xref.field.accept-encoding.3">12.3</a>, <a href="##rfc.section.12.5.3"><b>12.5.3</b></a>, <a href="##rfc.xref.field.accept-encoding.4">15.5.16</a>, <a href="##rfc.xref.field.accept-encoding.5">18.4</a>, <a href="##rfc.xref.field.accept-encoding.6">18.6</a></li><li>Accept-Language&nbsp;&nbsp;<a href="##rfc.xref.field.accept-language.1">8.5.1</a>, <a href="##rfc.section.12.5.4"><b>12.5.4</b></a>, <a href="##rfc.xref.field.accept-language.2">18.4</a></li><li>Accept-Ranges&nbsp;&nbsp;<a href="##rfc.xref.field.accept-ranges.1">14.1</a>, <a href="##rfc.section.14.3"><b>14.3</b></a>, <a href="##rfc.xref.field.accept-ranges.2">18.4</a>, <a href="##rfc.xref.field.accept-ranges.3">18.7</a>, <a href="##rfc.xref.field.accept-ranges.4">B.3</a></li><li>Allow&nbsp;&nbsp;<a href="##rfc.xref.field.allow.1">9.1</a>, <a href="##rfc.section.10.2.1"><b>10.2.1</b></a>, <a href="##rfc.xref.field.allow.2">18.4</a></li><li>Authentication-Info&nbsp;&nbsp;<a href="##rfc.section.11.6.3"><b>11.6.3</b></a>, <a href="##rfc.xref.field.authentication-info.1">18.4</a></li><li>Authorization&nbsp;&nbsp;<a href="##rfc.section.11.6.2"><b>11.6.2</b></a>, <a href="##rfc.xref.field.authorization.1">11.6.3</a>, <a href="##rfc.xref.field.authorization.2">12.5.5</a>, <a href="##rfc.xref.field.authorization.3">15.5.2</a>, <a href="##rfc.xref.field.authorization.4">18.4</a></li><li>Connection&nbsp;&nbsp;<a href="##rfc.xref.field.connection.1">5.1</a>, <a href="##rfc.xref.field.connection.2">7.6</a>, <a href="##rfc.section.7.6.1"><b>7.6.1</b></a>, <a href="##rfc.xref.field.connection.3">7.8</a>, <a href="##rfc.xref.field.connection.4">10.1.4</a>, <a href="##rfc.xref.field.connection.5">15.4</a>, <a href="##rfc.xref.field.connection.6">16.3.2</a>, <a href="##rfc.xref.field.connection.7">18.4</a></li><li>Content-Encoding&nbsp;&nbsp;<a href="##rfc.section.8.4"><b>8.4</b></a>, <a href="##rfc.xref.field.content-encoding.1">8.4.1</a>, <a href="##rfc.xref.field.content-encoding.2">18.4</a></li><li>Content-Language&nbsp;&nbsp;<a href="##rfc.section.8.5"><b>8.5</b></a>, <a href="##rfc.xref.field.content-language.1">18.4</a></li><li>Content-Length&nbsp;&nbsp;<a href="##rfc.section.8.6"><b>8.6</b></a>, <a href="##rfc.xref.field.content-length.1">15.5.12</a>, <a href="##rfc.xref.field.content-length.2">18.4</a></li><li>Content-Location&nbsp;&nbsp;<a href="##rfc.section.8.7"><b>8.7</b></a>, <a href="##rfc.xref.field.content-location.1">9.3.3</a>, <a href="##rfc.xref.field.content-location.2">10.2.2</a>, <a href="##rfc.xref.field.content-location.3">18.4</a></li><li>Content-MD5&nbsp;&nbsp;<a href="##rfc.iref.f.7"><b>18.4</b></a></li><li>Content-Range&nbsp;&nbsp;<a href="##rfc.xref.field.content-range.1">9.3.4</a>, <a href="##rfc.xref.field.content-range.2">14.1</a>, <a href="##rfc.section.14.4"><b>14.4</b></a>, <a href="##rfc.section.14.5">14.5</a>, <a href="##rfc.xref.field.content-range.3">14.5</a>, <a href="##rfc.xref.field.content-range.4">15.5.17</a>, <a href="##rfc.xref.field.content-range.5">18.4</a>, <a href="##rfc.xref.field.content-range.6">B.3</a>, <a href="##rfc.xref.field.content-range.7">B.5</a></li><li>Content-Type&nbsp;&nbsp;<a href="##rfc.xref.field.content-type.1">5.5</a>, <a href="##rfc.section.8.3"><b>8.3</b></a>, <a href="##rfc.xref.field.content-type.2">8.3.1</a>, <a href="##rfc.xref.field.content-type.3">18.4</a></li><li>Date&nbsp;&nbsp;<a href="##rfc.xref.field.date.1">5.1</a>, <a href="##rfc.xref.field.date.2">6.4.1</a>, <a href="##rfc.section.6.6.1"><b>6.6.1</b></a>, <a href="##rfc.xref.field.date.3">8.8.2.1</a>, <a href="##rfc.xref.field.date.4">18.4</a></li><li>ETag&nbsp;&nbsp;<a href="##rfc.xref.field.etag.1">8.8</a>, <a href="##rfc.section.8.8.3"><b>8.8.3</b></a>, <a href="##rfc.xref.field.etag.2">18.4</a></li><li>Expect&nbsp;&nbsp;<a href="##rfc.xref.field.expect.1">7.8</a>, <a href="##rfc.section.10.1.1"><b>10.1.1</b></a>, <a href="##rfc.xref.field.expect.2">15.2.1</a>, <a href="##rfc.xref.field.expect.3">15.5.18</a>, <a href="##rfc.xref.field.expect.4">18.4</a>, <a href="##rfc.xref.field.expect.5">B.3</a></li><li>From&nbsp;&nbsp;<a href="##rfc.section.10.1.2"><b>10.1.2</b></a>, <a href="##rfc.xref.field.from.1">18.4</a></li><li>Host&nbsp;&nbsp;<a href="##rfc.xref.field.host.1">4.3.3</a>, <a href="##rfc.xref.field.host.2">7.1</a>, <a href="##rfc.section.7.2"><b>7.2</b></a>, <a href="##rfc.xref.field.host.3">18.4</a>, <a href="##rfc.xref.field.host.4">B.2</a></li><li>If-Match&nbsp;&nbsp;<a href="##rfc.section.13.1.1"><b>13.1.1</b></a>, <a href="##rfc.xref.field.if-match.1">13.2.2</a>, <a href="##rfc.xref.field.if-match.2">18.4</a>, <a href="##rfc.xref.field.if-match.3">B.4</a></li><li>If-Modified-Since&nbsp;&nbsp;<a href="##rfc.section.13.1.3"><b>13.1.3</b></a>, <a href="##rfc.xref.field.if-modified-since.1">18.4</a></li><li>If-None-Match&nbsp;&nbsp;<a href="##rfc.section.13.1.2"><b>13.1.2</b></a>, <a href="##rfc.xref.field.if-none-match.1">18.4</a></li><li>If-Range&nbsp;&nbsp;<a href="##rfc.xref.field.if-range.1">13.1.1</a>, <a href="##rfc.xref.field.if-range.2">13.1.4</a>, <a href="##rfc.section.13.1.5"><b>13.1.5</b></a>, <a href="##rfc.xref.field.if-range.3">14.2</a>, <a href="##rfc.xref.field.if-range.4">18.4</a></li><li>If-Unmodified-Since&nbsp;&nbsp;<a href="##rfc.section.13.1.4"><b>13.1.4</b></a>, <a href="##rfc.xref.field.if-unmodified-since.1">13.2.2</a>, <a href="##rfc.xref.field.if-unmodified-since.2">18.4</a>, <a href="##rfc.xref.field.if-unmodified-since.3">B.4</a>, <a href="##rfc.xref.field.if-unmodified-since.4">B.4</a></li><li>Last-Modified&nbsp;&nbsp;<a href="##rfc.xref.field.last-modified.1">8.8</a>, <a href="##rfc.section.8.8.2"><b>8.8.2</b></a>, <a href="##rfc.xref.field.last-modified.2">18.4</a></li><li>Location&nbsp;&nbsp;<a href="##rfc.xref.field.location.1">9.3.3</a>, <a href="##rfc.section.10.2.2"><b>10.2.2</b></a>, <a href="##rfc.xref.field.location.2">15.4</a>, <a href="##rfc.xref.field.location.3">17.11</a>, <a href="##rfc.xref.field.location.4">18.4</a></li><li>Max-Forwards&nbsp;&nbsp;<a href="##rfc.section.7.6.2"><b>7.6.2</b></a>, <a href="##rfc.xref.field.max-forwards.1">9.3.7</a>, <a href="##rfc.xref.field.max-forwards.2">9.3.8</a>, <a href="##rfc.xref.field.max-forwards.3">18.4</a></li><li>Proxy-Authenticate&nbsp;&nbsp;<a href="##rfc.section.11.7.1"><b>11.7.1</b></a>, <a href="##rfc.xref.field.proxy-authenticate.1">15.5.8</a>, <a href="##rfc.xref.field.proxy-authenticate.2">18.4</a></li><li>Proxy-Authentication-Info&nbsp;&nbsp;<a href="##rfc.section.11.7.3"><b>11.7.3</b></a>, <a href="##rfc.xref.field.proxy-authentication-info.1">18.4</a></li><li>Proxy-Authorization&nbsp;&nbsp;<a href="##rfc.section.11.7.2"><b>11.7.2</b></a>, <a href="##rfc.xref.field.proxy-authorization.1">11.7.3</a>, <a href="##rfc.xref.field.proxy-authorization.2">15.5.8</a>, <a href="##rfc.xref.field.proxy-authorization.3">18.4</a></li><li>Range&nbsp;&nbsp;<a href="##rfc.xref.field.range.1">9.3.1</a>, <a href="##rfc.xref.field.range.2">14.1</a>, <a href="##rfc.section.14.2"><b>14.2</b></a>, <a href="##rfc.xref.field.range.3">15.5.17</a>, <a href="##rfc.xref.field.range.4">16.1.2</a>, <a href="##rfc.xref.field.range.5">18.4</a>, <a href="##rfc.xref.field.range.6">B.5</a></li><li>Referer&nbsp;&nbsp;<a href="##rfc.section.10.1.3"><b>10.1.3</b></a>, <a href="##rfc.xref.field.referer.1">17.9</a>, <a href="##rfc.xref.field.referer.2">18.4</a></li><li>Retry-After&nbsp;&nbsp;<a href="##rfc.section.10.2.3"><b>10.2.3</b></a>, <a href="##rfc.xref.field.retry-after.1">15.6.4</a>, <a href="##rfc.xref.field.retry-after.2">18.4</a></li><li>Server&nbsp;&nbsp;<a href="##rfc.section.10.2.4"><b>10.2.4</b></a>, <a href="##rfc.xref.field.server.1">17.12</a>, <a href="##rfc.xref.field.server.2">18.4</a></li><li>TE&nbsp;&nbsp;<a href="##rfc.xref.field.te.1">6.5.1</a>, <a href="##rfc.xref.field.te.2">7.6.1</a>, <a href="##rfc.section.10.1.4"><b>10.1.4</b></a>, <a href="##rfc.xref.field.te.3">18.4</a></li><li>Trailer&nbsp;&nbsp;<a href="##rfc.xref.field.trailer.1">6.5.2</a>, <a href="##rfc.section.6.6.2"><b>6.6.2</b></a>, <a href="##rfc.xref.field.trailer.2">18.4</a></li><li>Upgrade&nbsp;&nbsp;<a href="##rfc.xref.field.upgrade.1">3.3</a>, <a href="##rfc.xref.field.upgrade.2">7.6.1</a>, <a href="##rfc.xref.field.upgrade.3">7.6.3</a>, <a href="##rfc.section.7.8"><b>7.8</b></a>, <a href="##rfc.xref.field.upgrade.4">15.2.2</a>, <a href="##rfc.xref.field.upgrade.5">15.5.22</a>, <a href="##rfc.xref.field.upgrade.6">18.4</a></li><li>User-Agent&nbsp;&nbsp;<a href="##rfc.section.10.1.5"><b>10.1.5</b></a>, <a href="##rfc.xref.field.user-agent.1">10.2.4</a>, <a href="##rfc.xref.field.user-agent.2">17.12</a>, <a href="##rfc.xref.field.user-agent.3">18.4</a></li><li>Vary&nbsp;&nbsp;<a href="##rfc.xref.field.vary.1">12.1</a>, <a href="##rfc.section.12.5.5"><b>12.5.5</b></a>, <a href="##rfc.xref.field.vary.2">16.3.2</a>, <a href="##rfc.xref.field.vary.3">18.4</a>, <a href="##rfc.xref.field.vary.4">18.4</a>, <a href="##rfc.xref.field.vary.5">18.4</a>, <a href="##rfc.xref.field.vary.6">B.3</a></li><li>Via&nbsp;&nbsp;<a href="##rfc.xref.field.via.1">6.2</a>, <a href="##rfc.section.7.6.3"><b>7.6.3</b></a>, <a href="##rfc.xref.field.via.2">9.3.8</a>, <a href="##rfc.xref.field.via.3">17.12</a>, <a href="##rfc.xref.field.via.4">18.4</a>, <a href="##rfc.xref.field.via.5">B.2</a></li><li>WWW-Authenticate&nbsp;&nbsp;<a href="##rfc.section.11.6.1"><b>11.6.1</b></a>, <a href="##rfc.xref.field.www-authenticate.1">11.7.1</a>, <a href="##rfc.xref.field.www-authenticate.2">15.5.2</a>, <a href="##rfc.xref.field.www-authenticate.3">18.4</a></li></ul></li><li>Fragment Identifiers&nbsp;&nbsp;<a href="##rfc.section.4.2.5">4.2.5</a></li><li>From header field&nbsp;&nbsp;<a href="##rfc.section.10.1.2"><b>10.1.2</b></a>, <a href="##rfc.xref.field.from.1">18.4</a></li></ul></li><li><a id="rfc.index.G" href="##rfc.index.G"><b>G</b></a><ul><li>gateway&nbsp;&nbsp;<a href="##rfc.iref.g.1"><b>3.7</b></a></li><li><em>Georgiev</em>&nbsp;&nbsp;<a href="##rfc.xref.Georgiev.1">17.1</a>, <a href="##Georgiev"><b>19.2</b></a></li><li>GET method&nbsp;&nbsp;<a href="##rfc.xref.GET.1">3.2</a>, <a href="##rfc.xref.GET.2">3.9</a>, <a href="##rfc.extref.g.4">6</a>, <a href="##rfc.xref.GET.3">6.4.1</a>, <a href="##rfc.xref.GET.4">6.4.1</a>, <a href="##rfc.xref.GET.5">8.7</a>, <a href="##rfc.xref.GET.6">9.1</a>, <a href="##rfc.extref.g.5">9.2.1</a>, <a href="##rfc.iref.g.79"><b>9.3.1</b></a>, <a href="##rfc.extref.g.6">13.1.1</a>, <a href="##rfc.extref.g.7">13.1.4</a>, <a href="##rfc.extref.g.8">14.1.2</a>, <a href="##rfc.extref.g.9">14.1.2</a>, <a href="##rfc.extref.g.10">14.2</a>, <a href="##rfc.xref.GET.7">18.2</a>, <a href="##rfc.xref.GET.8">B.3</a></li><li><span class="tt">Grammar</span>&nbsp;&nbsp;<ul><li><span class="tt">absolute-path</span>&nbsp;&nbsp;<a href="##rfc.iref.g.5"><b>4.1</b></a></li><li><span class="tt">absolute-URI</span>&nbsp;&nbsp;<a href="##rfc.iref.g.3"><b>4.1</b></a></li><li><span class="tt">Accept</span>&nbsp;&nbsp;<a href="##rfc.iref.g.108"><b>12.5.1</b></a></li><li><span class="tt">Accept-Charset</span>&nbsp;&nbsp;<a href="##rfc.iref.g.110"><b>12.5.2</b></a></li><li><span class="tt">Accept-Encoding</span>&nbsp;&nbsp;<a href="##rfc.iref.g.111"><b>12.5.3</b></a></li><li><span class="tt">Accept-Language</span>&nbsp;&nbsp;<a href="##rfc.iref.g.113"><b>12.5.4</b></a></li><li><span class="tt">Accept-Ranges</span>&nbsp;&nbsp;<a href="##rfc.iref.g.132"><b>14.3</b></a></li><li><span class="tt">acceptable-ranges</span>&nbsp;&nbsp;<a href="##rfc.iref.g.133"><b>14.3</b></a></li><li><span class="tt">Allow</span>&nbsp;&nbsp;<a href="##rfc.iref.g.90"><b>10.2.1</b></a></li><li>ALPHA&nbsp;&nbsp;<a href="##rfc.section.2.1"><b>2.1</b></a></li><li><span class="tt">asctime-date</span>&nbsp;&nbsp;<a href="##rfc.iref.g.47"><b>5.6.7</b></a></li><li><span class="tt">auth-param</span>&nbsp;&nbsp;<a href="##rfc.iref.g.97"><b>11.2</b></a></li><li><span class="tt">auth-scheme</span>&nbsp;&nbsp;<a href="##rfc.iref.g.95"><b>11.1</b></a></li><li><span class="tt">Authentication-Info</span>&nbsp;&nbsp;<a href="##rfc.iref.g.102"><b>11.6.3</b></a></li><li><span class="tt">authority</span>&nbsp;&nbsp;<a href="##rfc.iref.g.4"><b>4.1</b></a></li><li><span class="tt">Authorization</span>&nbsp;&nbsp;<a href="##rfc.iref.g.101"><b>11.6.2</b></a></li><li><span class="tt">BWS</span>&nbsp;&nbsp;<a href="##rfc.iref.g.22"><b>5.6.3</b></a></li><li><span class="tt">challenge</span>&nbsp;&nbsp;<a href="##rfc.iref.g.98"><b>11.3</b></a></li><li><span class="tt">codings</span>&nbsp;&nbsp;<a href="##rfc.iref.g.112"><b>12.5.3</b></a></li><li><span class="tt">comment</span>&nbsp;&nbsp;<a href="##rfc.iref.g.26"><b>5.6.5</b></a></li><li><span class="tt">complete-length</span>&nbsp;&nbsp;<a href="##rfc.iref.g.138"><b>14.4</b></a></li><li><span class="tt">Connection</span>&nbsp;&nbsp;<a href="##rfc.iref.g.52"><b>7.6.1</b></a></li><li><span class="tt">connection-option</span>&nbsp;&nbsp;<a href="##rfc.iref.g.53"><b>7.6.1</b></a></li><li><span class="tt">content-coding</span>&nbsp;&nbsp;<a href="##rfc.iref.g.67"><b>8.4.1</b></a></li><li><span class="tt">Content-Encoding</span>&nbsp;&nbsp;<a href="##rfc.iref.g.66"><b>8.4</b></a></li><li><span class="tt">Content-Language</span>&nbsp;&nbsp;<a href="##rfc.iref.g.68"><b>8.5</b></a></li><li><span class="tt">Content-Length</span>&nbsp;&nbsp;<a href="##rfc.iref.g.70"><b>8.6</b></a></li><li><span class="tt">Content-Location</span>&nbsp;&nbsp;<a href="##rfc.iref.g.71"><b>8.7</b></a></li><li><span class="tt">Content-Range</span>&nbsp;&nbsp;<a href="##rfc.iref.g.134"><b>14.4</b></a></li><li><span class="tt">Content-Type</span>&nbsp;&nbsp;<a href="##rfc.iref.g.62"><b>8.3</b></a></li><li>CR&nbsp;&nbsp;<a href="##rfc.section.2.1"><b>2.1</b></a></li><li><span class="tt">credentials</span>&nbsp;&nbsp;<a href="##rfc.iref.g.99"><b>11.4</b></a></li><li>CRLF&nbsp;&nbsp;<a href="##rfc.section.2.1"><b>2.1</b></a></li><li><span class="tt">ctext</span>&nbsp;&nbsp;<a href="##rfc.iref.g.27"><b>5.6.5</b></a></li><li>CTL&nbsp;&nbsp;<a href="##rfc.section.2.1"><b>2.1</b></a></li><li><span class="tt">Date</span>&nbsp;&nbsp;<a href="##rfc.iref.g.48"><b>6.6.1</b></a></li><li><span class="tt">date1</span>&nbsp;&nbsp;<a href="##rfc.iref.g.34"><b>5.6.7</b></a></li><li><span class="tt">day</span>&nbsp;&nbsp;<a href="##rfc.iref.g.41"><b>5.6.7</b></a></li><li><span class="tt">day-name</span>&nbsp;&nbsp;<a href="##rfc.iref.g.39"><b>5.6.7</b></a></li><li><span class="tt">day-name-l</span>&nbsp;&nbsp;<a href="##rfc.iref.g.40"><b>5.6.7</b></a></li><li><span class="tt">delay-seconds</span>&nbsp;&nbsp;<a href="##rfc.iref.g.93"><b>10.2.3</b></a></li><li>DIGIT&nbsp;&nbsp;<a href="##rfc.section.2.1"><b>2.1</b></a></li><li>DQUOTE&nbsp;&nbsp;<a href="##rfc.section.2.1"><b>2.1</b></a></li><li><span class="tt">entity-tag</span>&nbsp;&nbsp;<a href="##rfc.iref.g.74"><b>8.8.3</b></a></li><li><span class="tt">ETag</span>&nbsp;&nbsp;<a href="##rfc.iref.g.73"><b>8.8.3</b></a></li><li><span class="tt">etagc</span>&nbsp;&nbsp;<a href="##rfc.iref.g.77"><b>8.8.3</b></a></li><li><span class="tt">Expect</span>&nbsp;&nbsp;<a href="##rfc.iref.g.80"><b>10.1.1</b></a></li><li><span class="tt">field-content</span>&nbsp;&nbsp;<a href="##rfc.iref.g.16"><b>5.5</b></a></li><li><span class="tt">field-name</span>&nbsp;&nbsp;<a href="##rfc.iref.g.13"><b>5.1</b></a>, <a href="##rfc.iref.g.50">6.6.2</a></li><li><span class="tt">field-value</span>&nbsp;&nbsp;<a href="##rfc.iref.g.14"><b>5.5</b></a></li><li><span class="tt">field-vchar</span>&nbsp;&nbsp;<a href="##rfc.iref.g.15"><b>5.5</b></a></li><li><span class="tt">first-pos</span>&nbsp;&nbsp;<a href="##rfc.iref.g.126"><b>14.1.1</b></a>, <a href="##rfc.iref.g.139">14.4</a></li><li><span class="tt">From</span>&nbsp;&nbsp;<a href="##rfc.iref.g.81"><b>10.1.2</b></a></li><li><span class="tt">GMT</span>&nbsp;&nbsp;<a href="##rfc.iref.g.44"><b>5.6.7</b></a></li><li>HEXDIG&nbsp;&nbsp;<a href="##rfc.section.2.1"><b>2.1</b></a></li><li><span class="tt">Host</span>&nbsp;&nbsp;<a href="##rfc.iref.g.51"><b>7.2</b></a></li><li><span class="tt">hour</span>&nbsp;&nbsp;<a href="##rfc.iref.g.36"><b>5.6.7</b></a></li><li>HTAB&nbsp;&nbsp;<a href="##rfc.section.2.1"><b>2.1</b></a></li><li><span class="tt">HTTP-date</span>&nbsp;&nbsp;<a href="##rfc.iref.g.32"><b>5.6.7</b></a></li><li><span class="tt">http-URI</span>&nbsp;&nbsp;<a href="##rfc.iref.g.11"><b>4.2.1</b></a></li><li><span class="tt">https-URI</span>&nbsp;&nbsp;<a href="##rfc.iref.g.12"><b>4.2.2</b></a></li><li><span class="tt">If-Match</span>&nbsp;&nbsp;<a href="##rfc.iref.g.116"><b>13.1.1</b></a></li><li><span class="tt">If-Modified-Since</span>&nbsp;&nbsp;<a href="##rfc.iref.g.118"><b>13.1.3</b></a></li><li><span class="tt">If-None-Match</span>&nbsp;&nbsp;<a href="##rfc.iref.g.117"><b>13.1.2</b></a></li><li><span class="tt">If-Range</span>&nbsp;&nbsp;<a href="##rfc.iref.g.120"><b>13.1.5</b></a></li><li><span class="tt">If-Unmodified-Since</span>&nbsp;&nbsp;<a href="##rfc.iref.g.119"><b>13.1.4</b></a></li><li><span class="tt">IMF-fixdate</span>&nbsp;&nbsp;<a href="##rfc.iref.g.33"><b>5.6.7</b></a></li><li><span class="tt">incl-range</span>&nbsp;&nbsp;<a href="##rfc.iref.g.136"><b>14.4</b></a></li><li><span class="tt">int-range</span>&nbsp;&nbsp;<a href="##rfc.iref.g.125"><b>14.1.1</b></a></li><li><span class="tt">language-range</span>&nbsp;&nbsp;<a href="##rfc.iref.g.114"><b>12.5.4</b></a></li><li><span class="tt">language-tag</span>&nbsp;&nbsp;<a href="##rfc.iref.g.69"><b>8.5.1</b></a></li><li><span class="tt">Last-Modified</span>&nbsp;&nbsp;<a href="##rfc.iref.g.72"><b>8.8.2</b></a></li><li><span class="tt">last-pos</span>&nbsp;&nbsp;<a href="##rfc.iref.g.127"><b>14.1.1</b></a>, <a href="##rfc.iref.g.140">14.4</a></li><li>LF&nbsp;&nbsp;<a href="##rfc.section.2.1"><b>2.1</b></a></li><li><span class="tt">Location</span>&nbsp;&nbsp;<a href="##rfc.iref.g.91"><b>10.2.2</b></a></li><li><span class="tt">Max-Forwards</span>&nbsp;&nbsp;<a href="##rfc.iref.g.54"><b>7.6.2</b></a></li><li><span class="tt">media-range</span>&nbsp;&nbsp;<a href="##rfc.iref.g.109"><b>12.5.1</b></a></li><li><span class="tt">media-type</span>&nbsp;&nbsp;<a href="##rfc.iref.g.63"><b>8.3.1</b></a></li><li><span class="tt">method</span>&nbsp;&nbsp;<a href="##rfc.iref.g.78"><b>9.1</b></a></li><li><span class="tt">minute</span>&nbsp;&nbsp;<a href="##rfc.iref.g.37"><b>5.6.7</b></a></li><li><span class="tt">month</span>&nbsp;&nbsp;<a href="##rfc.iref.g.42"><b>5.6.7</b></a></li><li><span class="tt">obs-date</span>&nbsp;&nbsp;<a href="##rfc.iref.g.45"><b>5.6.7</b></a></li><li><span class="tt">obs-text</span>&nbsp;&nbsp;<a href="##rfc.iref.g.17"><b>5.5</b></a></li><li>OCTET&nbsp;&nbsp;<a href="##rfc.section.2.1"><b>2.1</b></a></li><li><span class="tt">opaque-tag</span>&nbsp;&nbsp;<a href="##rfc.iref.g.76"><b>8.8.3</b></a></li><li><span class="tt">other-range</span>&nbsp;&nbsp;<a href="##rfc.iref.g.130"><b>14.1.1</b></a></li><li><span class="tt">OWS</span>&nbsp;&nbsp;<a href="##rfc.iref.g.20"><b>5.6.3</b></a></li><li><span class="tt">parameter</span>&nbsp;&nbsp;<a href="##rfc.iref.g.29"><b>5.6.6</b></a></li><li><span class="tt">parameter-name</span>&nbsp;&nbsp;<a href="##rfc.iref.g.30"><b>5.6.6</b></a></li><li><span class="tt">parameter-value</span>&nbsp;&nbsp;<a href="##rfc.iref.g.31"><b>5.6.6</b></a></li><li><span class="tt">parameters</span>&nbsp;&nbsp;<a href="##rfc.iref.g.28"><b>5.6.6</b></a></li><li><span class="tt">partial-URI</span>&nbsp;&nbsp;<a href="##rfc.iref.g.10"><b>4.1</b></a></li><li><span class="tt">port</span>&nbsp;&nbsp;<a href="##rfc.iref.g.6"><b>4.1</b></a></li><li><span class="tt">product</span>&nbsp;&nbsp;<a href="##rfc.iref.g.88"><b>10.1.5</b></a></li><li><span class="tt">product-version</span>&nbsp;&nbsp;<a href="##rfc.iref.g.89"><b>10.1.5</b></a></li><li><span class="tt">protocol-name</span>&nbsp;&nbsp;<a href="##rfc.iref.g.57"><b>7.6.3</b></a></li><li><span class="tt">protocol-version</span>&nbsp;&nbsp;<a href="##rfc.iref.g.58"><b>7.6.3</b></a></li><li><span class="tt">Proxy-Authenticate</span>&nbsp;&nbsp;<a href="##rfc.iref.g.103"><b>11.7.1</b></a></li><li><span class="tt">Proxy-Authentication-Info</span>&nbsp;&nbsp;<a href="##rfc.iref.g.105"><b>11.7.3</b></a></li><li><span class="tt">Proxy-Authorization</span>&nbsp;&nbsp;<a href="##rfc.iref.g.104"><b>11.7.2</b></a></li><li><span class="tt">pseudonym</span>&nbsp;&nbsp;<a href="##rfc.iref.g.60"><b>7.6.3</b></a></li><li><span class="tt">qdtext</span>&nbsp;&nbsp;<a href="##rfc.iref.g.24"><b>5.6.4</b></a></li><li><span class="tt">query</span>&nbsp;&nbsp;<a href="##rfc.iref.g.7"><b>4.1</b></a></li><li><span class="tt">quoted-pair</span>&nbsp;&nbsp;<a href="##rfc.iref.g.25"><b>5.6.4</b></a></li><li><span class="tt">quoted-string</span>&nbsp;&nbsp;<a href="##rfc.iref.g.23"><b>5.6.4</b></a></li><li><span class="tt">qvalue</span>&nbsp;&nbsp;<a href="##rfc.iref.g.107"><b>12.4.2</b></a></li><li><span class="tt">Range</span>&nbsp;&nbsp;<a href="##rfc.iref.g.131"><b>14.2</b></a></li><li><span class="tt">range-resp</span>&nbsp;&nbsp;<a href="##rfc.iref.g.135"><b>14.4</b></a></li><li><span class="tt">range-set</span>&nbsp;&nbsp;<a href="##rfc.iref.g.123"><b>14.1.1</b></a></li><li><span class="tt">range-spec</span>&nbsp;&nbsp;<a href="##rfc.iref.g.124"><b>14.1.1</b></a></li><li><span class="tt">range-unit</span>&nbsp;&nbsp;<a href="##rfc.iref.g.121"><b>14.1</b></a></li><li><span class="tt">ranges-specifier</span>&nbsp;&nbsp;<a href="##rfc.iref.g.122"><b>14.1.1</b></a></li><li><span class="tt">received-by</span>&nbsp;&nbsp;<a href="##rfc.iref.g.59"><b>7.6.3</b></a></li><li><span class="tt">received-protocol</span>&nbsp;&nbsp;<a href="##rfc.iref.g.56"><b>7.6.3</b></a></li><li><span class="tt">Referer</span>&nbsp;&nbsp;<a href="##rfc.iref.g.82"><b>10.1.3</b></a></li><li><span class="tt">Retry-After</span>&nbsp;&nbsp;<a href="##rfc.iref.g.92"><b>10.2.3</b></a></li><li><span class="tt">rfc850-date</span>&nbsp;&nbsp;<a href="##rfc.iref.g.46"><b>5.6.7</b></a></li><li><span class="tt">RWS</span>&nbsp;&nbsp;<a href="##rfc.iref.g.21"><b>5.6.3</b></a></li><li><span class="tt">second</span>&nbsp;&nbsp;<a href="##rfc.iref.g.38"><b>5.6.7</b></a></li><li><span class="tt">segment</span>&nbsp;&nbsp;<a href="##rfc.iref.g.8"><b>4.1</b></a></li><li><span class="tt">Server</span>&nbsp;&nbsp;<a href="##rfc.iref.g.94"><b>10.2.4</b></a></li><li>SP&nbsp;&nbsp;<a href="##rfc.section.2.1"><b>2.1</b></a></li><li><span class="tt">subtype</span>&nbsp;&nbsp;<a href="##rfc.iref.g.65"><b>8.3.1</b></a></li><li><span class="tt">suffix-length</span>&nbsp;&nbsp;<a href="##rfc.iref.g.129"><b>14.1.1</b></a></li><li><span class="tt">suffix-range</span>&nbsp;&nbsp;<a href="##rfc.iref.g.128"><b>14.1.1</b></a></li><li><span class="tt">t-codings</span>&nbsp;&nbsp;<a href="##rfc.iref.g.84"><b>10.1.4</b></a></li><li><span class="tt">tchar</span>&nbsp;&nbsp;<a href="##rfc.iref.g.19"><b>5.6.2</b></a></li><li><span class="tt">TE</span>&nbsp;&nbsp;<a href="##rfc.iref.g.83"><b>10.1.4</b></a></li><li><span class="tt">time-of-day</span>&nbsp;&nbsp;<a href="##rfc.iref.g.35"><b>5.6.7</b></a></li><li><span class="tt">token</span>&nbsp;&nbsp;<a href="##rfc.iref.g.18"><b>5.6.2</b></a></li><li><span class="tt">token68</span>&nbsp;&nbsp;<a href="##rfc.iref.g.96"><b>11.2</b></a></li><li><span class="tt">Trailer</span>&nbsp;&nbsp;<a href="##rfc.iref.g.49"><b>6.6.2</b></a></li><li><span class="tt">transfer-coding</span>&nbsp;&nbsp;<a href="##rfc.iref.g.85"><b>10.1.4</b></a></li><li><span class="tt">transfer-parameter</span>&nbsp;&nbsp;<a href="##rfc.iref.g.86"><b>10.1.4</b></a></li><li><span class="tt">type</span>&nbsp;&nbsp;<a href="##rfc.iref.g.64"><b>8.3.1</b></a></li><li><span class="tt">unsatisfied-range</span>&nbsp;&nbsp;<a href="##rfc.iref.g.137"><b>14.4</b></a></li><li><span class="tt">Upgrade</span>&nbsp;&nbsp;<a href="##rfc.iref.g.61"><b>7.8</b></a></li><li><span class="tt">uri-host</span>&nbsp;&nbsp;<a href="##rfc.iref.g.9"><b>4.1</b></a></li><li><span class="tt">URI-reference</span>&nbsp;&nbsp;<a href="##rfc.iref.g.2"><b>4.1</b></a></li><li><span class="tt">User-Agent</span>&nbsp;&nbsp;<a href="##rfc.iref.g.87"><b>10.1.5</b></a></li><li><span class="tt">Vary</span>&nbsp;&nbsp;<a href="##rfc.iref.g.115"><b>12.5.5</b></a></li><li>VCHAR&nbsp;&nbsp;<a href="##rfc.section.2.1"><b>2.1</b></a></li><li><span class="tt">Via</span>&nbsp;&nbsp;<a href="##rfc.iref.g.55"><b>7.6.3</b></a></li><li><span class="tt">weak</span>&nbsp;&nbsp;<a href="##rfc.iref.g.75"><b>8.8.3</b></a></li><li><span class="tt">weight</span>&nbsp;&nbsp;<a href="##rfc.iref.g.106"><b>12.4.2</b></a></li><li><span class="tt">WWW-Authenticate</span>&nbsp;&nbsp;<a href="##rfc.iref.g.100"><b>11.6.1</b></a></li><li><span class="tt">year</span>&nbsp;&nbsp;<a href="##rfc.iref.g.43"><b>5.6.7</b></a></li></ul></li><li>gzip (Coding Format)&nbsp;&nbsp;<a href="##rfc.section.8.4.1.3">8.4.1.3</a></li><li>gzip (content coding)&nbsp;&nbsp;<a href="##rfc.section.8.4.1"><b>8.4.1</b></a></li></ul></li><li><a id="rfc.index.H" href="##rfc.index.H"><b>H</b></a><ul><li>HEAD method&nbsp;&nbsp;<a href="##rfc.extref.h.15">6</a>, <a href="##rfc.xref.HEAD.1">6.4.1</a>, <a href="##rfc.xref.HEAD.2">8.6</a>, <a href="##rfc.xref.HEAD.3">8.7</a>, <a href="##rfc.xref.HEAD.4">9.1</a>, <a href="##rfc.extref.h.21">9.2.1</a>, <a href="##rfc.iref.h.1"><b>9.3.2</b></a>, <a href="##rfc.xref.HEAD.5">18.2</a>, <a href="##rfc.xref.HEAD.6">B.3</a></li><li>Header Fields&nbsp;&nbsp;<ul><li>Accept&nbsp;&nbsp;<a href="##rfc.xref.field.accept.1">5.6.6</a>, <a href="##rfc.xref.field.accept.2">8.3.1</a>, <a href="##rfc.xref.field.accept.3">12.3</a>, <a href="##rfc.section.12.5.1"><b>12.5.1</b></a>, <a href="##rfc.xref.field.accept.4">15.5.16</a>, <a href="##rfc.xref.field.accept.5">18.4</a>, <a href="##rfc.xref.field.accept.6">18.8</a>, <a href="##rfc.xref.field.accept.7">B.3</a></li><li>Accept-Charset&nbsp;&nbsp;<a href="##rfc.iref.h.2"><b>12.5.2</b></a>, <a href="##rfc.xref.field.accept-charset.1">18.4</a>, <a href="##rfc.xref.field.accept-charset.2">B.3</a></li><li>Accept-Encoding&nbsp;&nbsp;<a href="##rfc.xref.field.accept-encoding.1">8.4.1</a>, <a href="##rfc.xref.field.accept-encoding.2">8.8.3.3</a>, <a href="##rfc.xref.field.accept-encoding.3">12.3</a>, <a href="##rfc.section.12.5.3"><b>12.5.3</b></a>, <a href="##rfc.xref.field.accept-encoding.4">15.5.16</a>, <a href="##rfc.xref.field.accept-encoding.5">18.4</a>, <a href="##rfc.xref.field.accept-encoding.6">18.6</a></li><li>Accept-Language&nbsp;&nbsp;<a href="##rfc.xref.field.accept-language.1">8.5.1</a>, <a href="##rfc.section.12.5.4"><b>12.5.4</b></a>, <a href="##rfc.xref.field.accept-language.2">18.4</a></li><li>Accept-Ranges&nbsp;&nbsp;<a href="##rfc.xref.field.accept-ranges.1">14.1</a>, <a href="##rfc.section.14.3"><b>14.3</b></a>, <a href="##rfc.xref.field.accept-ranges.2">18.4</a>, <a href="##rfc.xref.field.accept-ranges.3">18.7</a>, <a href="##rfc.xref.field.accept-ranges.4">B.3</a></li><li>Allow&nbsp;&nbsp;<a href="##rfc.xref.field.allow.1">9.1</a>, <a href="##rfc.section.10.2.1"><b>10.2.1</b></a>, <a href="##rfc.xref.field.allow.2">18.4</a></li><li>Authentication-Info&nbsp;&nbsp;<a href="##rfc.section.11.6.3"><b>11.6.3</b></a>, <a href="##rfc.xref.field.authentication-info.1">18.4</a></li><li>Authorization&nbsp;&nbsp;<a href="##rfc.section.11.6.2"><b>11.6.2</b></a>, <a href="##rfc.xref.field.authorization.1">11.6.3</a>, <a href="##rfc.xref.field.authorization.2">12.5.5</a>, <a href="##rfc.xref.field.authorization.3">15.5.2</a>, <a href="##rfc.xref.field.authorization.4">18.4</a></li><li>Connection&nbsp;&nbsp;<a href="##rfc.xref.field.connection.1">5.1</a>, <a href="##rfc.xref.field.connection.2">7.6</a>, <a href="##rfc.section.7.6.1"><b>7.6.1</b></a>, <a href="##rfc.xref.field.connection.3">7.8</a>, <a href="##rfc.xref.field.connection.4">10.1.4</a>, <a href="##rfc.xref.field.connection.5">15.4</a>, <a href="##rfc.xref.field.connection.6">16.3.2</a>, <a href="##rfc.xref.field.connection.7">18.4</a></li><li>Content-Encoding&nbsp;&nbsp;<a href="##rfc.section.8.4"><b>8.4</b></a>, <a href="##rfc.xref.field.content-encoding.1">8.4.1</a>, <a href="##rfc.xref.field.content-encoding.2">18.4</a></li><li>Content-Language&nbsp;&nbsp;<a href="##rfc.section.8.5"><b>8.5</b></a>, <a href="##rfc.xref.field.content-language.1">18.4</a></li><li>Content-Length&nbsp;&nbsp;<a href="##rfc.section.8.6"><b>8.6</b></a>, <a href="##rfc.xref.field.content-length.1">15.5.12</a>, <a href="##rfc.xref.field.content-length.2">18.4</a></li><li>Content-Location&nbsp;&nbsp;<a href="##rfc.section.8.7"><b>8.7</b></a>, <a href="##rfc.xref.field.content-location.1">9.3.3</a>, <a href="##rfc.xref.field.content-location.2">10.2.2</a>, <a href="##rfc.xref.field.content-location.3">18.4</a></li><li>Content-MD5&nbsp;&nbsp;<a href="##rfc.iref.h.3"><b>18.4</b></a></li><li>Content-Range&nbsp;&nbsp;<a href="##rfc.xref.field.content-range.1">9.3.4</a>, <a href="##rfc.xref.field.content-range.2">14.1</a>, <a href="##rfc.section.14.4"><b>14.4</b></a>, <a href="##rfc.section.14.5">14.5</a>, <a href="##rfc.xref.field.content-range.3">14.5</a>, <a href="##rfc.xref.field.content-range.4">15.5.17</a>, <a href="##rfc.xref.field.content-range.5">18.4</a>, <a href="##rfc.xref.field.content-range.6">B.3</a>, <a href="##rfc.xref.field.content-range.7">B.5</a></li><li>Content-Type&nbsp;&nbsp;<a href="##rfc.xref.field.content-type.1">5.5</a>, <a href="##rfc.section.8.3"><b>8.3</b></a>, <a href="##rfc.xref.field.content-type.2">8.3.1</a>, <a href="##rfc.xref.field.content-type.3">18.4</a></li><li>Date&nbsp;&nbsp;<a href="##rfc.xref.field.date.1">5.1</a>, <a href="##rfc.xref.field.date.2">6.4.1</a>, <a href="##rfc.section.6.6.1"><b>6.6.1</b></a>, <a href="##rfc.xref.field.date.3">8.8.2.1</a>, <a href="##rfc.xref.field.date.4">18.4</a></li><li>ETag&nbsp;&nbsp;<a href="##rfc.xref.field.etag.1">8.8</a>, <a href="##rfc.section.8.8.3"><b>8.8.3</b></a>, <a href="##rfc.xref.field.etag.2">18.4</a></li><li>Expect&nbsp;&nbsp;<a href="##rfc.xref.field.expect.1">7.8</a>, <a href="##rfc.section.10.1.1"><b>10.1.1</b></a>, <a href="##rfc.xref.field.expect.2">15.2.1</a>, <a href="##rfc.xref.field.expect.3">15.5.18</a>, <a href="##rfc.xref.field.expect.4">18.4</a>, <a href="##rfc.xref.field.expect.5">B.3</a></li><li>From&nbsp;&nbsp;<a href="##rfc.section.10.1.2"><b>10.1.2</b></a>, <a href="##rfc.xref.field.from.1">18.4</a></li><li>Host&nbsp;&nbsp;<a href="##rfc.xref.field.host.1">4.3.3</a>, <a href="##rfc.xref.field.host.2">7.1</a>, <a href="##rfc.section.7.2"><b>7.2</b></a>, <a href="##rfc.xref.field.host.3">18.4</a>, <a href="##rfc.xref.field.host.4">B.2</a></li><li>If-Match&nbsp;&nbsp;<a href="##rfc.section.13.1.1"><b>13.1.1</b></a>, <a href="##rfc.xref.field.if-match.1">13.2.2</a>, <a href="##rfc.xref.field.if-match.2">18.4</a>, <a href="##rfc.xref.field.if-match.3">B.4</a></li><li>If-Modified-Since&nbsp;&nbsp;<a href="##rfc.section.13.1.3"><b>13.1.3</b></a>, <a href="##rfc.xref.field.if-modified-since.1">18.4</a></li><li>If-None-Match&nbsp;&nbsp;<a href="##rfc.section.13.1.2"><b>13.1.2</b></a>, <a href="##rfc.xref.field.if-none-match.1">18.4</a></li><li>If-Range&nbsp;&nbsp;<a href="##rfc.xref.field.if-range.1">13.1.1</a>, <a href="##rfc.xref.field.if-range.2">13.1.4</a>, <a href="##rfc.section.13.1.5"><b>13.1.5</b></a>, <a href="##rfc.xref.field.if-range.3">14.2</a>, <a href="##rfc.xref.field.if-range.4">18.4</a></li><li>If-Unmodified-Since&nbsp;&nbsp;<a href="##rfc.section.13.1.4"><b>13.1.4</b></a>, <a href="##rfc.xref.field.if-unmodified-since.1">13.2.2</a>, <a href="##rfc.xref.field.if-unmodified-since.2">18.4</a>, <a href="##rfc.xref.field.if-unmodified-since.3">B.4</a>, <a href="##rfc.xref.field.if-unmodified-since.4">B.4</a></li><li>Last-Modified&nbsp;&nbsp;<a href="##rfc.xref.field.last-modified.1">8.8</a>, <a href="##rfc.section.8.8.2"><b>8.8.2</b></a>, <a href="##rfc.xref.field.last-modified.2">18.4</a></li><li>Location&nbsp;&nbsp;<a href="##rfc.xref.field.location.1">9.3.3</a>, <a href="##rfc.section.10.2.2"><b>10.2.2</b></a>, <a href="##rfc.xref.field.location.2">15.4</a>, <a href="##rfc.xref.field.location.3">17.11</a>, <a href="##rfc.xref.field.location.4">18.4</a></li><li>Max-Forwards&nbsp;&nbsp;<a href="##rfc.section.7.6.2"><b>7.6.2</b></a>, <a href="##rfc.xref.field.max-forwards.1">9.3.7</a>, <a href="##rfc.xref.field.max-forwards.2">9.3.8</a>, <a href="##rfc.xref.field.max-forwards.3">18.4</a></li><li>Proxy-Authenticate&nbsp;&nbsp;<a href="##rfc.section.11.7.1"><b>11.7.1</b></a>, <a href="##rfc.xref.field.proxy-authenticate.1">15.5.8</a>, <a href="##rfc.xref.field.proxy-authenticate.2">18.4</a></li><li>Proxy-Authentication-Info&nbsp;&nbsp;<a href="##rfc.section.11.7.3"><b>11.7.3</b></a>, <a href="##rfc.xref.field.proxy-authentication-info.1">18.4</a></li><li>Proxy-Authorization&nbsp;&nbsp;<a href="##rfc.section.11.7.2"><b>11.7.2</b></a>, <a href="##rfc.xref.field.proxy-authorization.1">11.7.3</a>, <a href="##rfc.xref.field.proxy-authorization.2">15.5.8</a>, <a href="##rfc.xref.field.proxy-authorization.3">18.4</a></li><li>Range&nbsp;&nbsp;<a href="##rfc.xref.field.range.1">9.3.1</a>, <a href="##rfc.xref.field.range.2">14.1</a>, <a href="##rfc.section.14.2"><b>14.2</b></a>, <a href="##rfc.xref.field.range.3">15.5.17</a>, <a href="##rfc.xref.field.range.4">16.1.2</a>, <a href="##rfc.xref.field.range.5">18.4</a>, <a href="##rfc.xref.field.range.6">B.5</a></li><li>Referer&nbsp;&nbsp;<a href="##rfc.section.10.1.3"><b>10.1.3</b></a>, <a href="##rfc.xref.field.referer.1">17.9</a>, <a href="##rfc.xref.field.referer.2">18.4</a></li><li>Retry-After&nbsp;&nbsp;<a href="##rfc.section.10.2.3"><b>10.2.3</b></a>, <a href="##rfc.xref.field.retry-after.1">15.6.4</a>, <a href="##rfc.xref.field.retry-after.2">18.4</a></li><li>Server&nbsp;&nbsp;<a href="##rfc.section.10.2.4"><b>10.2.4</b></a>, <a href="##rfc.xref.field.server.1">17.12</a>, <a href="##rfc.xref.field.server.2">18.4</a></li><li>TE&nbsp;&nbsp;<a href="##rfc.xref.field.te.1">6.5.1</a>, <a href="##rfc.xref.field.te.2">7.6.1</a>, <a href="##rfc.section.10.1.4"><b>10.1.4</b></a>, <a href="##rfc.xref.field.te.3">18.4</a></li><li>Trailer&nbsp;&nbsp;<a href="##rfc.xref.field.trailer.1">6.5.2</a>, <a href="##rfc.section.6.6.2"><b>6.6.2</b></a>, <a href="##rfc.xref.field.trailer.2">18.4</a></li><li>Upgrade&nbsp;&nbsp;<a href="##rfc.xref.field.upgrade.1">3.3</a>, <a href="##rfc.xref.field.upgrade.2">7.6.1</a>, <a href="##rfc.xref.field.upgrade.3">7.6.3</a>, <a href="##rfc.section.7.8"><b>7.8</b></a>, <a href="##rfc.xref.field.upgrade.4">15.2.2</a>, <a href="##rfc.xref.field.upgrade.5">15.5.22</a>, <a href="##rfc.xref.field.upgrade.6">18.4</a></li><li>User-Agent&nbsp;&nbsp;<a href="##rfc.section.10.1.5"><b>10.1.5</b></a>, <a href="##rfc.xref.field.user-agent.1">10.2.4</a>, <a href="##rfc.xref.field.user-agent.2">17.12</a>, <a href="##rfc.xref.field.user-agent.3">18.4</a></li><li>Vary&nbsp;&nbsp;<a href="##rfc.xref.field.vary.1">12.1</a>, <a href="##rfc.section.12.5.5"><b>12.5.5</b></a>, <a href="##rfc.xref.field.vary.2">16.3.2</a>, <a href="##rfc.xref.field.vary.3">18.4</a>, <a href="##rfc.xref.field.vary.4">18.4</a>, <a href="##rfc.xref.field.vary.5">18.4</a>, <a href="##rfc.xref.field.vary.6">B.3</a></li><li>Via&nbsp;&nbsp;<a href="##rfc.xref.field.via.1">6.2</a>, <a href="##rfc.section.7.6.3"><b>7.6.3</b></a>, <a href="##rfc.xref.field.via.2">9.3.8</a>, <a href="##rfc.xref.field.via.3">17.12</a>, <a href="##rfc.xref.field.via.4">18.4</a>, <a href="##rfc.xref.field.via.5">B.2</a></li><li>WWW-Authenticate&nbsp;&nbsp;<a href="##rfc.section.11.6.1"><b>11.6.1</b></a>, <a href="##rfc.xref.field.www-authenticate.1">11.7.1</a>, <a href="##rfc.xref.field.www-authenticate.2">15.5.2</a>, <a href="##rfc.xref.field.www-authenticate.3">18.4</a></li></ul></li><li>header section&nbsp;&nbsp;<a href="##rfc.section.6.3"><b>6.3</b></a></li><li>Host header field&nbsp;&nbsp;<a href="##rfc.xref.field.host.1">4.3.3</a>, <a href="##rfc.xref.field.host.2">7.1</a>, <a href="##rfc.section.7.2"><b>7.2</b></a>, <a href="##rfc.xref.field.host.3">18.4</a>, <a href="##rfc.xref.field.host.4">B.2</a></li><li><em>HPACK</em>&nbsp;&nbsp;<a href="##rfc.xref.HPACK.1">17.6</a>, <a href="##HPACK"><b>19.2</b></a></li><li>http URI scheme&nbsp;&nbsp;<a href="##rfc.section.4.2.1"><b>4.2.1</b></a></li><li><em>HTTP/1.0</em>&nbsp;&nbsp;<a href="##rfc.xref.HTTP10.1">1.2</a>, <a href="##rfc.xref.HTTP10.2">15.4</a>, <a href="##HTTP10"><b>19.2</b></a>, <a href="##rfc.xref.HTTP10.3">"Acknowledgements"</a><ul><li><em>Section 9.3</em>&nbsp;&nbsp;<a href="##rfc.xref.HTTP10.2">15.4</a></li></ul></li><li><em>HTTP/1.1</em>&nbsp;&nbsp;<a href="##rfc.xref.HTTP11.1">1.2</a>, <a href="##rfc.xref.HTTP11.2">1.4</a>, <a href="##rfc.xref.HTTP11.3">2.5</a>, <a href="##rfc.xref.HTTP11.4">5.4</a>, <a href="##rfc.xref.HTTP11.5">6.2</a>, <a href="##rfc.xref.HTTP11.6">6.4</a>, <a href="##rfc.xref.HTTP11.7">6.5.1</a>, <a href="##rfc.xref.HTTP11.8">7.1</a>, <a href="##rfc.xref.HTTP11.9">7.5</a>, <a href="##rfc.xref.HTTP11.10">7.6.1</a>, <a href="##rfc.xref.HTTP11.11">7.6.1</a>, <a href="##rfc.xref.HTTP11.12">7.7</a>, <a href="##rfc.xref.HTTP11.13">7.7</a>, <a href="##rfc.xref.HTTP11.14">7.7</a>, <a href="##rfc.xref.HTTP11.15">8.4</a>, <a href="##rfc.xref.HTTP11.16">8.6</a>, <a href="##rfc.xref.HTTP11.17">8.8.3.3</a>, <a href="##rfc.xref.HTTP11.18">9.3.1</a>, <a href="##rfc.xref.HTTP11.19">9.3.2</a>, <a href="##rfc.xref.HTTP11.20">9.3.5</a>, <a href="##rfc.xref.HTTP11.21">9.3.8</a>, <a href="##rfc.xref.HTTP11.22">10.1.1</a>, <a href="##rfc.xref.HTTP11.23">10.1.4</a>, <a href="##rfc.xref.HTTP11.24">16</a>, <a href="##rfc.xref.HTTP11.25">17</a>, <a href="##rfc.xref.HTTP11.26">17.10</a>, <a href="##HTTP11"><b>19.2</b></a>, <a href="##rfc.xref.HTTP11.27">B.3</a><ul><li><em>Section 3.2.1</em>&nbsp;&nbsp;<a href="##rfc.xref.HTTP11.12">7.7</a></li><li><em>Section 3.2.4</em>&nbsp;&nbsp;<a href="##rfc.xref.HTTP11.13">7.7</a></li><li><em>Section 6</em>&nbsp;&nbsp;<a href="##rfc.xref.HTTP11.6">6.4</a></li><li><em>Section 6.1</em>&nbsp;&nbsp;<a href="##rfc.xref.HTTP11.11">7.6.1</a>, <a href="##rfc.xref.HTTP11.15">8.4</a>, <a href="##rfc.xref.HTTP11.24">16</a></li><li><em>Section 6.2</em>&nbsp;&nbsp;<a href="##rfc.xref.HTTP11.16">8.6</a></li><li><em>Section 7</em>&nbsp;&nbsp;<a href="##rfc.xref.HTTP11.14">7.7</a>, <a href="##rfc.xref.HTTP11.17">8.8.3.3</a>, <a href="##rfc.xref.HTTP11.23">10.1.4</a></li><li><em>Section 7.1.2</em>&nbsp;&nbsp;<a href="##rfc.xref.HTTP11.7">6.5.1</a></li><li><em>Section 9.5</em>&nbsp;&nbsp;<a href="##rfc.xref.HTTP11.9">7.5</a></li><li><em>Section 9.6</em>&nbsp;&nbsp;<a href="##rfc.xref.HTTP11.22">10.1.1</a></li><li><em>Section 10.1</em>&nbsp;&nbsp;<a href="##rfc.xref.HTTP11.21">9.3.8</a></li><li><em>Section 11</em>&nbsp;&nbsp;<a href="##rfc.xref.HTTP11.25">17</a></li><li><em>Section 11.2</em>&nbsp;&nbsp;<a href="##rfc.xref.HTTP11.4">5.4</a>, <a href="##rfc.xref.HTTP11.18">9.3.1</a>, <a href="##rfc.xref.HTTP11.19">9.3.2</a>, <a href="##rfc.xref.HTTP11.20">9.3.5</a>, <a href="##rfc.xref.HTTP11.26">17.10</a></li><li><em>Appendix C.2.2</em>&nbsp;&nbsp;<a href="##rfc.xref.HTTP11.10">7.6.1</a></li></ul></li><li><em>HTTP/2</em>&nbsp;&nbsp;<a href="##rfc.xref.HTTP2.1">1.2</a>, <a href="##rfc.xref.HTTP2.2">6.2</a>, <a href="##rfc.xref.HTTP2.3">7.2</a>, <a href="##rfc.xref.HTTP2.4">7.5</a>, <a href="##rfc.xref.HTTP2.5">16</a>, <a href="##HTTP2"><b>19.2</b></a><ul></ul></li><li><em>HTTP/3</em>&nbsp;&nbsp;<a href="##rfc.xref.HTTP3.1">1.2</a>, <a href="##rfc.xref.HTTP3.2">6.2</a>, <a href="##rfc.xref.HTTP3.3">7.2</a>, <a href="##HTTP3"><b>19.2</b></a></li><li>https URI scheme&nbsp;&nbsp;<a href="##rfc.section.4.2.2"><b>4.2.2</b></a></li></ul></li><li><a id="rfc.index.I" href="##rfc.index.I"><b>I</b></a><ul><li>idempotent&nbsp;&nbsp;<a href="##rfc.section.9.2.2"><b>9.2.2</b></a></li><li>If-Match header field&nbsp;&nbsp;<a href="##rfc.section.13.1.1"><b>13.1.1</b></a>, <a href="##rfc.xref.field.if-match.1">13.2.2</a>, <a href="##rfc.xref.field.if-match.2">18.4</a>, <a href="##rfc.xref.field.if-match.3">B.4</a></li><li>If-Modified-Since header field&nbsp;&nbsp;<a href="##rfc.section.13.1.3"><b>13.1.3</b></a>, <a href="##rfc.xref.field.if-modified-since.1">18.4</a></li><li>If-None-Match header field&nbsp;&nbsp;<a href="##rfc.section.13.1.2"><b>13.1.2</b></a>, <a href="##rfc.xref.field.if-none-match.1">18.4</a></li><li>If-Range header field&nbsp;&nbsp;<a href="##rfc.xref.field.if-range.1">13.1.1</a>, <a href="##rfc.xref.field.if-range.2">13.1.4</a>, <a href="##rfc.section.13.1.5"><b>13.1.5</b></a>, <a href="##rfc.xref.field.if-range.3">14.2</a>, <a href="##rfc.xref.field.if-range.4">18.4</a></li><li>If-Unmodified-Since header field&nbsp;&nbsp;<a href="##rfc.section.13.1.4"><b>13.1.4</b></a>, <a href="##rfc.xref.field.if-unmodified-since.1">13.2.2</a>, <a href="##rfc.xref.field.if-unmodified-since.2">18.4</a>, <a href="##rfc.xref.field.if-unmodified-since.3">B.4</a>, <a href="##rfc.xref.field.if-unmodified-since.4">B.4</a></li><li>inbound&nbsp;&nbsp;<a href="##rfc.iref.i.1"><b>3.7</b></a></li><li>incomplete&nbsp;&nbsp;<a href="##rfc.section.6.1"><b>6.1</b></a></li><li>interception proxy&nbsp;&nbsp;<a href="##rfc.iref.i.2"><b>3.7</b></a></li><li>intermediary&nbsp;&nbsp;<a href="##rfc.section.3.7"><b>3.7</b></a></li><li><em>ISO-8859-1</em>&nbsp;&nbsp;<a href="##rfc.xref.ISO-8859-1.1">5.5</a>, <a href="##ISO-8859-1"><b>19.2</b></a></li></ul></li><li><a id="rfc.index.K" href="##rfc.index.K"><b>K</b></a><ul><li><em>Kri2001</em>&nbsp;&nbsp;<a href="##rfc.xref.Kri2001.1">5.3</a>, <a href="##Kri2001"><b>19.2</b></a></li></ul></li><li><a id="rfc.index.L" href="##rfc.index.L"><b>L</b></a><ul><li>Last-Modified header field&nbsp;&nbsp;<a href="##rfc.xref.field.last-modified.1">8.8</a>, <a href="##rfc.section.8.8.2"><b>8.8.2</b></a>, <a href="##rfc.xref.field.last-modified.2">18.4</a></li><li>list-based field&nbsp;&nbsp;<a href="##rfc.iref.l.1">5.5</a></li><li>Location header field&nbsp;&nbsp;<a href="##rfc.xref.field.location.1">9.3.3</a>, <a href="##rfc.section.10.2.2"><b>10.2.2</b></a>, <a href="##rfc.xref.field.location.2">15.4</a>, <a href="##rfc.xref.field.location.3">17.11</a>, <a href="##rfc.xref.field.location.4">18.4</a></li></ul></li><li><a id="rfc.index.M" href="##rfc.index.M"><b>M</b></a><ul><li>Max-Forwards header field&nbsp;&nbsp;<a href="##rfc.section.7.6.2"><b>7.6.2</b></a>, <a href="##rfc.xref.field.max-forwards.1">9.3.7</a>, <a href="##rfc.xref.field.max-forwards.2">9.3.8</a>, <a href="##rfc.xref.field.max-forwards.3">18.4</a></li><li>Media Type&nbsp;&nbsp;<ul><li>multipart/byteranges&nbsp;&nbsp;<a href="##rfc.section.14.6"><b>14.6</b></a></li><li>multipart/x-byteranges&nbsp;&nbsp;<a href="##rfc.iref.m.8">14.6</a></li></ul></li><li>message&nbsp;&nbsp;<a href="##rfc.section.3.4">3.4</a>, <a href="##rfc.section.6"><b>6</b></a></li><li>message abstraction&nbsp;&nbsp;<a href="##rfc.section.6"><b>6</b></a></li><li>messages&nbsp;&nbsp;<a href="##rfc.section.3.4"><b>3.4</b></a></li><li>metadata&nbsp;&nbsp;<a href="##rfc.section.8.8"><b>8.8</b></a></li><li>Method&nbsp;&nbsp;<ul><li>*&nbsp;&nbsp;<a href="##rfc.iref.m.9"><b>18.2</b></a></li><li>CONNECT&nbsp;&nbsp;<a href="##rfc.xref.CONNECT.1">3.3</a>, <a href="##rfc.xref.CONNECT.2">6.4.1</a>, <a href="##rfc.xref.CONNECT.3">7.1</a>, <a href="##rfc.xref.CONNECT.4">8.6</a>, <a href="##rfc.xref.CONNECT.5">9.1</a>, <a href="##rfc.section.9.3.6"><b>9.3.6</b></a>, <a href="##rfc.xref.CONNECT.6">16</a>, <a href="##rfc.extref.c.100">16.1.2</a>, <a href="##rfc.xref.CONNECT.7">18.2</a></li><li>DELETE&nbsp;&nbsp;<a href="##rfc.xref.DELETE.1">9.1</a>, <a href="##rfc.extref.d.39">9.2.2</a>, <a href="##rfc.iref.m.4"><b>9.3.5</b></a>, <a href="##rfc.xref.DELETE.2">18.2</a>, <a href="##rfc.xref.DELETE.3">B.3</a></li><li>GET&nbsp;&nbsp;<a href="##rfc.xref.GET.1">3.2</a>, <a href="##rfc.xref.GET.2">3.9</a>, <a href="##rfc.extref.g.4">6</a>, <a href="##rfc.xref.GET.3">6.4.1</a>, <a href="##rfc.xref.GET.4">6.4.1</a>, <a href="##rfc.xref.GET.5">8.7</a>, <a href="##rfc.xref.GET.6">9.1</a>, <a href="##rfc.extref.g.5">9.2.1</a>, <a href="##rfc.iref.m.1"><b>9.3.1</b></a>, <a href="##rfc.extref.g.6">13.1.1</a>, <a href="##rfc.extref.g.7">13.1.4</a>, <a href="##rfc.extref.g.8">14.1.2</a>, <a href="##rfc.extref.g.9">14.1.2</a>, <a href="##rfc.extref.g.10">14.2</a>, <a href="##rfc.xref.GET.7">18.2</a>, <a href="##rfc.xref.GET.8">B.3</a></li><li>HEAD&nbsp;&nbsp;<a href="##rfc.extref.h.15">6</a>, <a href="##rfc.xref.HEAD.1">6.4.1</a>, <a href="##rfc.xref.HEAD.2">8.6</a>, <a href="##rfc.xref.HEAD.3">8.7</a>, <a href="##rfc.xref.HEAD.4">9.1</a>, <a href="##rfc.extref.h.21">9.2.1</a>, <a href="##rfc.iref.m.2"><b>9.3.2</b></a>, <a href="##rfc.xref.HEAD.5">18.2</a>, <a href="##rfc.xref.HEAD.6">B.3</a></li><li>OPTIONS&nbsp;&nbsp;<a href="##rfc.xref.OPTIONS.1">7.1</a>, <a href="##rfc.xref.OPTIONS.2">7.6.2</a>, <a href="##rfc.xref.OPTIONS.3">9.1</a>, <a href="##rfc.extref.o.16">9.2.1</a>, <a href="##rfc.iref.m.5"><b>9.3.7</b></a>, <a href="##rfc.extref.o.27">16.1.2</a>, <a href="##rfc.xref.OPTIONS.4">18.2</a>, <a href="##rfc.xref.OPTIONS.5">B.3</a></li><li>POST&nbsp;&nbsp;<a href="##rfc.xref.POST.1">6.4.1</a>, <a href="##rfc.xref.POST.2">8.7</a>, <a href="##rfc.xref.POST.3">9.1</a>, <a href="##rfc.xref.POST.4">9.3.1</a>, <a href="##rfc.section.9.3.3"><b>9.3.3</b></a>, <a href="##rfc.xref.POST.5">18.2</a></li><li>PUT&nbsp;&nbsp;<a href="##rfc.xref.PUT.1">6.4.1</a>, <a href="##rfc.xref.PUT.2">8.7</a>, <a href="##rfc.xref.PUT.3">9.1</a>, <a href="##rfc.extref.p.28">9.2.2</a>, <a href="##rfc.iref.m.3"><b>9.3.4</b></a>, <a href="##rfc.extref.p.51">14.5</a>, <a href="##rfc.xref.PUT.4">15.3.1</a>, <a href="##rfc.xref.PUT.5">15.3.2</a>, <a href="##rfc.xref.PUT.6">16.3.2</a>, <a href="##rfc.xref.PUT.7">18.2</a>, <a href="##rfc.xref.PUT.8">B.3</a></li><li>TRACE&nbsp;&nbsp;<a href="##rfc.xref.TRACE.1">7.6.2</a>, <a href="##rfc.xref.TRACE.2">9.1</a>, <a href="##rfc.extref.t.35">9.2.1</a>, <a href="##rfc.iref.m.6"><b>9.3.8</b></a>, <a href="##rfc.xref.TRACE.3">18.2</a>, <a href="##rfc.xref.TRACE.4">B.3</a></li></ul></li><li>multipart/byteranges Media Type&nbsp;&nbsp;<a href="##rfc.section.14.6"><b>14.6</b></a></li><li>multipart/x-byteranges Media Type&nbsp;&nbsp;<a href="##rfc.iref.m.7">14.6</a></li></ul></li><li><a id="rfc.index.N" href="##rfc.index.N"><b>N</b></a><ul><li>non-transforming proxy&nbsp;&nbsp;<a href="##rfc.section.7.7"><b>7.7</b></a></li></ul></li><li><a id="rfc.index.O" href="##rfc.index.O"><b>O</b></a><ul><li>OPTIONS method&nbsp;&nbsp;<a href="##rfc.xref.OPTIONS.1">7.1</a>, <a href="##rfc.xref.OPTIONS.2">7.6.2</a>, <a href="##rfc.xref.OPTIONS.3">9.1</a>, <a href="##rfc.extref.o.16">9.2.1</a>, <a href="##rfc.iref.o.2"><b>9.3.7</b></a>, <a href="##rfc.extref.o.27">16.1.2</a>, <a href="##rfc.xref.OPTIONS.4">18.2</a>, <a href="##rfc.xref.OPTIONS.5">B.3</a></li><li>origin&nbsp;&nbsp;<a href="##rfc.section.4.3.1"><b>4.3.1</b></a>, <a href="##rfc.section.11.5">11.5</a></li><li>origin server&nbsp;&nbsp;<a href="##rfc.section.3.6"><b>3.6</b></a></li><li>outbound&nbsp;&nbsp;<a href="##rfc.iref.o.1"><b>3.7</b></a></li><li><em>OWASP</em>&nbsp;&nbsp;<a href="##rfc.xref.OWASP.1">17</a>, <a href="##rfc.xref.OWASP.2">17.16</a>, <a href="##OWASP"><b>19.2</b></a></li></ul></li><li><a id="rfc.index.P" href="##rfc.index.P"><b>P</b></a><ul><li>phishing&nbsp;&nbsp;<a href="##rfc.section.17.1"><b>17.1</b></a></li><li>POST method&nbsp;&nbsp;<a href="##rfc.xref.POST.1">6.4.1</a>, <a href="##rfc.xref.POST.2">8.7</a>, <a href="##rfc.xref.POST.3">9.1</a>, <a href="##rfc.xref.POST.4">9.3.1</a>, <a href="##rfc.section.9.3.3"><b>9.3.3</b></a>, <a href="##rfc.xref.POST.5">18.2</a></li><li>Protection Space&nbsp;&nbsp;<a href="##rfc.section.11.5">11.5</a></li><li>proxy&nbsp;&nbsp;<a href="##rfc.iref.p.1"><b>3.7</b></a></li><li>Proxy-Authenticate header field&nbsp;&nbsp;<a href="##rfc.section.11.7.1"><b>11.7.1</b></a>, <a href="##rfc.xref.field.proxy-authenticate.1">15.5.8</a>, <a href="##rfc.xref.field.proxy-authenticate.2">18.4</a></li><li>Proxy-Authentication-Info header field&nbsp;&nbsp;<a href="##rfc.section.11.7.3"><b>11.7.3</b></a>, <a href="##rfc.xref.field.proxy-authentication-info.1">18.4</a></li><li>Proxy-Authorization header field&nbsp;&nbsp;<a href="##rfc.section.11.7.2"><b>11.7.2</b></a>, <a href="##rfc.xref.field.proxy-authorization.1">11.7.3</a>, <a href="##rfc.xref.field.proxy-authorization.2">15.5.8</a>, <a href="##rfc.xref.field.proxy-authorization.3">18.4</a></li><li>PUT method&nbsp;&nbsp;<a href="##rfc.xref.PUT.1">6.4.1</a>, <a href="##rfc.xref.PUT.2">8.7</a>, <a href="##rfc.xref.PUT.3">9.1</a>, <a href="##rfc.extref.p.28">9.2.2</a>, <a href="##rfc.iref.p.2"><b>9.3.4</b></a>, <a href="##rfc.extref.p.51">14.5</a>, <a href="##rfc.xref.PUT.4">15.3.1</a>, <a href="##rfc.xref.PUT.5">15.3.2</a>, <a href="##rfc.xref.PUT.6">16.3.2</a>, <a href="##rfc.xref.PUT.7">18.2</a>, <a href="##rfc.xref.PUT.8">B.3</a></li></ul></li><li><a id="rfc.index.R" href="##rfc.index.R"><b>R</b></a><ul><li>Range header field&nbsp;&nbsp;<a href="##rfc.xref.field.range.1">9.3.1</a>, <a href="##rfc.xref.field.range.2">14.1</a>, <a href="##rfc.section.14.2"><b>14.2</b></a>, <a href="##rfc.xref.field.range.3">15.5.17</a>, <a href="##rfc.xref.field.range.4">16.1.2</a>, <a href="##rfc.xref.field.range.5">18.4</a>, <a href="##rfc.xref.field.range.6">B.5</a></li><li>Realm&nbsp;&nbsp;<a href="##rfc.section.11.5">11.5</a></li><li>recipient&nbsp;&nbsp;<a href="##rfc.section.3.4"><b>3.4</b></a></li><li>Referer header field&nbsp;&nbsp;<a href="##rfc.section.10.1.3"><b>10.1.3</b></a>, <a href="##rfc.xref.field.referer.1">17.9</a>, <a href="##rfc.xref.field.referer.2">18.4</a></li><li>representation&nbsp;&nbsp;<a href="##rfc.section.3.2"><b>3.2</b></a></li><li>request&nbsp;&nbsp;<a href="##rfc.section.3.4"><b>3.4</b></a></li><li>request target&nbsp;&nbsp;<a href="##rfc.section.7.1"><b>7.1</b></a></li><li>resource&nbsp;&nbsp;<a href="##rfc.section.3.1"><b>3.1</b></a>, <a href="##rfc.section.4">4</a></li><li>response&nbsp;&nbsp;<a href="##rfc.section.3.4"><b>3.4</b></a></li><li><em>REST</em>&nbsp;&nbsp;<a href="##rfc.xref.REST.1">3.2</a>, <a href="##rfc.xref.REST.2">9.1</a>, <a href="##REST"><b>19.2</b></a></li><li>Retry-After header field&nbsp;&nbsp;<a href="##rfc.section.10.2.3"><b>10.2.3</b></a>, <a href="##rfc.xref.field.retry-after.1">15.6.4</a>, <a href="##rfc.xref.field.retry-after.2">18.4</a></li><li>reverse proxy&nbsp;&nbsp;<a href="##rfc.iref.r.1"><b>3.7</b></a></li><li><em>RFC1919</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC1919.1">3.7</a>, <a href="##RFC1919"><b>19.2</b></a></li><li><em>RFC1950</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC1950.1">8.4.1.2</a>, <a href="##rfc.xref.RFC1950.2">18.6</a>, <a href="##RFC1950"><b>19.1</b></a></li><li><em>RFC1951</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC1951.1">8.4.1.2</a>, <a href="##rfc.xref.RFC1951.2">18.6</a>, <a href="##RFC1951"><b>19.1</b></a></li><li><em>RFC1952</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC1952.1">8.4.1.3</a>, <a href="##rfc.xref.RFC1952.2">18.6</a>, <a href="##RFC1952"><b>19.1</b></a></li><li><em>RFC2046</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC2046.1">8.3</a>, <a href="##rfc.xref.RFC2046.2">8.3.1</a>, <a href="##rfc.xref.RFC2046.3">8.3.1</a>, <a href="##rfc.xref.RFC2046.4">8.3.3</a>, <a href="##rfc.xref.RFC2046.5">14.6</a>, <a href="##rfc.xref.RFC2046.6">14.6</a>, <a href="##RFC2046"><b>19.1</b></a><ul><li><em>Section 4.1.2</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC2046.3">8.3.1</a></li><li><em>Section 4.5.1</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC2046.1">8.3</a></li><li><em>Section 5.1</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC2046.5">14.6</a></li><li><em>Section 5.1.1</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC2046.4">8.3.3</a></li></ul></li><li><em>RFC2047</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC2047.1">5.5</a>, <a href="##RFC2047"><b>19.2</b></a></li><li><em>RFC2068</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC2068.1">1.2</a>, <a href="##rfc.xref.RFC2068.2">7.6.1</a>, <a href="##rfc.xref.RFC2068.3">15.4</a>, <a href="##RFC2068"><b>19.2</b></a>, <a href="##rfc.xref.RFC2068.4">"Acknowledgements"</a><ul><li><em>Section 10.3</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC2068.3">15.4</a></li><li><em>Section 19.7.1</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC2068.2">7.6.1</a></li></ul></li><li><em>RFC2119</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC2119.1">2.2</a>, <a href="##RFC2119"><b>19.1</b></a></li><li><em>RFC2145</em>&nbsp;&nbsp;<a href="##RFC2145"><b>19.2</b></a>, <a href="##rfc.xref.RFC2145.1">"Acknowledgements"</a></li><li><em>RFC2295</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC2295.1">12</a>, <a href="##RFC2295"><b>19.2</b></a></li><li><em>RFC2324</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC2324.1">15.5.19</a>, <a href="##RFC2324"><b>19.2</b></a></li><li><em>RFC2557</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC2557.1">8.7</a>, <a href="##RFC2557"><b>19.2</b></a><ul><li><em>Section 4</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC2557.1">8.7</a></li></ul></li><li><em>RFC2616</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC2616.1">1.2</a>, <a href="##rfc.xref.RFC2616.2">8.8.3</a>, <a href="##rfc.xref.RFC2616.3">12.5.4</a>, <a href="##rfc.xref.RFC2616.4">18.4</a>, <a href="##RFC2616"><b>19.2</b></a>, <a href="##rfc.xref.RFC2616.5">"Acknowledgements"</a><ul><li><em>Section 3.11</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC2616.2">8.8.3</a></li><li><em>Section 14.4</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC2616.3">12.5.4</a></li><li><em>Section 14.15</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC2616.4">18.4</a></li></ul></li><li><em>RFC2617</em>&nbsp;&nbsp;<a href="##RFC2617"><b>19.2</b></a>, <a href="##rfc.xref.RFC2617.1">"Acknowledgements"</a></li><li><em>RFC2774</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC2774.1">16.1.2</a>, <a href="##RFC2774"><b>19.2</b></a></li><li><em>RFC2818</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC2818.1">1.4</a>, <a href="##RFC2818"><b>19.2</b></a>, <a href="##rfc.xref.RFC2818.2">"Acknowledgements"</a></li><li><em>RFC2978</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC2978.1">8.3.2</a>, <a href="##rfc.xref.RFC2978.2">8.3.2</a>, <a href="##RFC2978"><b>19.2</b></a><ul><li><em>Section 2</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC2978.1">8.3.2</a></li><li><em>Section 2.3</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC2978.2">8.3.2</a></li></ul></li><li><em>RFC3040</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC3040.1">3.7</a>, <a href="##RFC3040"><b>19.2</b></a></li><li><em>RFC3864</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC3864.1">18.4</a>, <a href="##RFC3864"><b>19.2</b></a></li><li><em>RFC3875</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC3875.1">17.10</a>, <a href="##RFC3875"><b>19.2</b></a><ul><li><em>Section 4.1.18</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC3875.1">17.10</a></li></ul></li><li><em>RFC4033</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC4033.1">17.1</a>, <a href="##RFC4033"><b>19.2</b></a></li><li><em>RFC4289</em>&nbsp;&nbsp;<a href="##RFC4289"><b>§</b></a></li><li><em>RFC4559</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC4559.1">3.3</a>, <a href="##RFC4559"><b>19.2</b></a></li><li><em>RFC4647</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC4647.1">12.5.4</a>, <a href="##rfc.xref.RFC4647.2">12.5.4</a>, <a href="##rfc.xref.RFC4647.3">12.5.4</a>, <a href="##rfc.xref.RFC4647.4">12.5.4</a>, <a href="##RFC4647"><b>19.1</b></a>, <a href="##rfc.xref.RFC4647.5">A</a><ul><li><em>Section 2.1</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC4647.1">12.5.4</a>, <a href="##rfc.xref.RFC4647.5">A</a></li><li><em>Section 2.3</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC4647.2">12.5.4</a></li><li><em>Section 3</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC4647.3">12.5.4</a></li><li><em>Section 3.3.1</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC4647.4">12.5.4</a></li></ul></li><li><em>RFC4648</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC4648.1">11.2</a>, <a href="##RFC4648"><b>19.1</b></a></li><li><em>RFC5234</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC5234.1">2.1</a>, <a href="##rfc.xref.RFC5234.2">2.1</a>, <a href="##rfc.xref.RFC5234.3">5.5</a>, <a href="##rfc.xref.RFC5234.4">5.6.1</a>, <a href="##RFC5234"><b>19.1</b></a><ul><li><em>Appendix B.1</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC5234.2">2.1</a></li></ul></li><li><em>RFC5280</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC5280.1">4.3.5</a>, <a href="##RFC5280"><b>19.1</b></a><ul><li><em>Section 4.2.1.6</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC5280.1">4.3.5</a></li></ul></li><li><em>RFC5322</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC5322.1">5.6.7</a>, <a href="##rfc.xref.RFC5322.2">5.6.7</a>, <a href="##rfc.xref.RFC5322.3">5.6.7</a>, <a href="##rfc.xref.RFC5322.4">6.6.1</a>, <a href="##rfc.xref.RFC5322.5">7.6.3</a>, <a href="##rfc.xref.RFC5322.6">10.1.2</a>, <a href="##rfc.xref.RFC5322.7">10.1.2</a>, <a href="##RFC5322"><b>19.1</b></a>, <a href="##rfc.xref.RFC5322.8">A</a><ul><li><em>Section 3.3</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC5322.2">5.6.7</a>, <a href="##rfc.xref.RFC5322.3">5.6.7</a></li><li><em>Section 3.4</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC5322.6">10.1.2</a>, <a href="##rfc.xref.RFC5322.7">10.1.2</a>, <a href="##rfc.xref.RFC5322.8">A</a></li><li><em>Section 3.6.1</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC5322.4">6.6.1</a></li><li><em>Section 3.6.7</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC5322.5">7.6.3</a></li></ul></li><li><em>RFC5646</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC5646.1">8.5.1</a>, <a href="##rfc.xref.RFC5646.2">8.5.1</a>, <a href="##rfc.xref.RFC5646.3">8.5.1</a>, <a href="##RFC5646"><b>19.1</b></a>, <a href="##rfc.xref.RFC5646.4">A</a><ul><li><em>Section 2.1</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC5646.2">8.5.1</a>, <a href="##rfc.xref.RFC5646.4">A</a></li></ul></li><li><em>RFC5789</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC5789.1">12.3</a>, <a href="##rfc.xref.RFC5789.2">14.5</a>, <a href="##RFC5789"><b>19.2</b></a><ul><li><em>Section 3.1</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC5789.1">12.3</a></li></ul></li><li><em>RFC5905</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC5905.1">5.6.7</a>, <a href="##RFC5905"><b>19.2</b></a></li><li><em>RFC6125</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC6125.1">4.3.4</a>, <a href="##rfc.xref.RFC6125.2">4.3.4</a>, <a href="##RFC6125"><b>19.1</b></a><ul><li><em>Section 6</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC6125.1">4.3.4</a></li><li><em>Section 6.2.1</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC6125.2">4.3.4</a></li></ul></li><li><em>RFC6365</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC6365.1">2.1</a>, <a href="##rfc.xref.RFC6365.2">8.3.2</a>, <a href="##RFC6365"><b>19.1</b></a><ul></ul></li><li><em>RFC6454</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC6454.1">4.3.1</a>, <a href="##RFC6454"><b>19.2</b></a></li><li><em>RFC6585</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC6585.1">17.5</a>, <a href="##RFC6585"><b>19.2</b></a></li><li><em>RFC6648</em>&nbsp;&nbsp;<a href="##RFC6648"><b>§</b></a></li><li><em>RFC6838</em>&nbsp;&nbsp;<a href="##RFC6838"><b>§</b></a></li><li><em>RFC7230</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC7230.1">1.2</a>, <a href="##rfc.xref.RFC7230.2">1.4</a>, <a href="##rfc.xref.RFC7230.3">1.4</a>, <a href="##rfc.xref.RFC7230.4">1.4</a>, <a href="##RFC7230"><b>19.2</b></a>, <a href="##rfc.xref.RFC7230.5">"Acknowledgements"</a></li><li><em>RFC7231</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC7231.1">1.4</a>, <a href="##rfc.xref.RFC7231.2">15.4.6</a>, <a href="##rfc.xref.RFC7231.3">18.4</a>, <a href="##RFC7231"><b>19.2</b></a>, <a href="##rfc.xref.RFC7231.4">"Acknowledgements"</a><ul><li><em>Appendix B</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC7231.2">15.4.6</a>, <a href="##rfc.xref.RFC7231.3">18.4</a></li></ul></li><li><em>RFC7232</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC7232.1">1.4</a>, <a href="##RFC7232"><b>19.2</b></a>, <a href="##rfc.xref.RFC7232.2">"Acknowledgements"</a></li><li><em>RFC7233</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC7233.1">1.4</a>, <a href="##RFC7233"><b>19.2</b></a>, <a href="##rfc.xref.RFC7233.2">"Acknowledgements"</a></li><li><em>RFC7234</em>&nbsp;&nbsp;<a href="##RFC7234"><b>19.2</b></a>, <a href="##rfc.xref.RFC7234.1">"Acknowledgements"</a></li><li><em>RFC7235</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC7235.1">1.2</a>, <a href="##rfc.xref.RFC7235.2">1.4</a>, <a href="##RFC7235"><b>19.2</b></a>, <a href="##rfc.xref.RFC7235.3">"Acknowledgements"</a></li><li><em>RFC7405</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC7405.1">2.1</a>, <a href="##RFC7405"><b>19.1</b></a></li><li><em>RFC7538</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC7538.1">1.4</a>, <a href="##rfc.xref.RFC7538.2">15.4</a>, <a href="##rfc.xref.RFC7538.3">15.4.9</a>, <a href="##RFC7538"><b>19.2</b></a>, <a href="##rfc.xref.RFC7538.4">B.3</a><ul><li><em>Section 4</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC7538.3">15.4.9</a></li></ul></li><li><em>RFC7540</em>&nbsp;&nbsp;<a href="##RFC7540"><b>19.2</b></a>, <a href="##rfc.xref.RFC7540.1">B.3</a><ul></ul></li><li><em>RFC7578</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC7578.1">8.3.3</a>, <a href="##RFC7578"><b>19.2</b></a></li><li><em>RFC7595</em>&nbsp;&nbsp;<a href="##RFC7595"><b>§</b></a></li><li><em>RFC7615</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC7615.1">1.4</a>, <a href="##RFC7615"><b>19.2</b></a></li><li><em>RFC7616</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC7616.1">11.1</a>, <a href="##rfc.xref.RFC7616.2">11.6.3</a>, <a href="##RFC7616"><b>19.2</b></a><ul><li><em>Section 3.5</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC7616.2">11.6.3</a></li></ul></li><li><em>RFC7617</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC7617.1">11.1</a>, <a href="##RFC7617"><b>19.2</b></a></li><li><em>RFC7694</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC7694.1">1.4</a>, <a href="##RFC7694"><b>19.2</b></a>, <a href="##rfc.xref.RFC7694.2">B.3</a>, <a href="##rfc.xref.RFC7694.3">B.9</a></li><li><em>RFC8126</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC8126.1">16.1.1</a>, <a href="##rfc.xref.RFC8126.2">16.2.1</a>, <a href="##rfc.xref.RFC8126.3">16.3.1</a>, <a href="##rfc.xref.RFC8126.4">16.4.1</a>, <a href="##rfc.xref.RFC8126.5">16.5.1</a>, <a href="##rfc.xref.RFC8126.6">16.6.1</a>, <a href="##rfc.xref.RFC8126.7">16.7</a>, <a href="##RFC8126"><b>19.2</b></a><ul><li><em>Section 4.4</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC8126.7">16.7</a></li><li><em>Section 4.6</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC8126.3">16.3.1</a></li><li><em>Section 4.8</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC8126.1">16.1.1</a>, <a href="##rfc.xref.RFC8126.2">16.2.1</a>, <a href="##rfc.xref.RFC8126.4">16.4.1</a>, <a href="##rfc.xref.RFC8126.5">16.5.1</a>, <a href="##rfc.xref.RFC8126.6">16.6.1</a></li></ul></li><li><em>RFC8174</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC8174.1">2.2</a>, <a href="##RFC8174"><b>19.1</b></a></li><li><em>RFC8187</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC8187.1">5.5</a>, <a href="##RFC8187"><b>19.2</b></a></li><li><em>RFC8246</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC8246.1">13.2.1</a>, <a href="##RFC8246"><b>19.2</b></a></li><li><em>RFC8288</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC8288.1">15.4.1</a>, <a href="##RFC8288"><b>19.2</b></a></li><li><em>RFC8336</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC8336.1">4.3.3</a>, <a href="##rfc.xref.RFC8336.2">17.1</a>, <a href="##RFC8336"><b>19.2</b></a></li><li><em>RFC8615</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC8615.1">16.3</a>, <a href="##RFC8615"><b>19.2</b></a></li><li><em>RFC8941</em>&nbsp;&nbsp;<a href="##rfc.xref.RFC8941.1">16.3.2.2</a>, <a href="##rfc.xref.RFC8941.2">16.3.2.2</a>, <a href="##RFC8941"><b>19.2</b></a></li></ul></li><li><a id="rfc.index.S" href="##rfc.index.S"><b>S</b></a><ul><li>safe&nbsp;&nbsp;<a href="##rfc.section.9.2.1"><b>9.2.1</b></a></li><li>satisfiable range&nbsp;&nbsp;<a href="##rfc.section.14.1.1"><b>14.1.1</b></a></li><li>secured&nbsp;&nbsp;<a href="##rfc.section.4.2.2"><b>4.2.2</b></a></li><li>selected representation&nbsp;&nbsp;<a href="##rfc.iref.s.1"><b>3.2</b></a>, <a href="##rfc.section.8.8">8.8</a>, <a href="##rfc.section.13.1">13.1</a></li><li>self-descriptive&nbsp;&nbsp;<a href="##rfc.section.6"><b>6</b></a></li><li>sender&nbsp;&nbsp;<a href="##rfc.section.3.4"><b>3.4</b></a></li><li>server&nbsp;&nbsp;<a href="##rfc.section.3.3"><b>3.3</b></a></li><li>Server header field&nbsp;&nbsp;<a href="##rfc.section.10.2.4"><b>10.2.4</b></a>, <a href="##rfc.xref.field.server.1">17.12</a>, <a href="##rfc.xref.field.server.2">18.4</a></li><li>singleton field&nbsp;&nbsp;<a href="##rfc.iref.s.2">5.5</a></li><li><em>Sniffing</em>&nbsp;&nbsp;<a href="##rfc.xref.Sniffing.1">8.3</a>, <a href="##Sniffing"><b>19.2</b></a></li><li>spider&nbsp;&nbsp;<a href="##rfc.section.3.5"><b>3.5</b></a></li><li>Status Code&nbsp;&nbsp;<a href="##rfc.section.15">15</a></li><li>Status Codes&nbsp;&nbsp;<ul><li>Final&nbsp;&nbsp;<a href="##rfc.iref.s.3">15</a></li><li>Informational&nbsp;&nbsp;<a href="##rfc.iref.s.5">15</a></li><li>Interim&nbsp;&nbsp;<a href="##rfc.iref.s.4">15</a></li></ul></li><li>Status Codes Classes&nbsp;&nbsp;<ul><li>1xx Informational&nbsp;&nbsp;<a href="##rfc.section.15.2"><b>15.2</b></a></li><li>2xx Successful&nbsp;&nbsp;<a href="##rfc.section.15.3"><b>15.3</b></a></li><li>3xx Redirection&nbsp;&nbsp;<a href="##rfc.xref.status.3xx.1">7.8</a>, <a href="##rfc.section.15.4"><b>15.4</b></a>, <a href="##rfc.xref.status.3xx.2">16.3.2</a>, <a href="##rfc.xref.status.3xx.3">B.3</a></li><li>4xx Client Error&nbsp;&nbsp;<a href="##rfc.section.15.5"><b>15.5</b></a></li><li>5xx Server Error&nbsp;&nbsp;<a href="##rfc.section.15.6"><b>15.6</b></a></li></ul></li></ul></li><li><a id="rfc.index.T" href="##rfc.index.T"><b>T</b></a><ul><li>target resource&nbsp;&nbsp;<a href="##rfc.section.7.1"><b>7.1</b></a></li><li>target URI&nbsp;&nbsp;<a href="##rfc.section.7.1"><b>7.1</b></a></li><li><em>TCP</em>&nbsp;&nbsp;<a href="##rfc.xref.TCP.1">4.2.1</a>, <a href="##TCP"><b>19.1</b></a></li><li>TE header field&nbsp;&nbsp;<a href="##rfc.xref.field.te.1">6.5.1</a>, <a href="##rfc.xref.field.te.2">7.6.1</a>, <a href="##rfc.section.10.1.4"><b>10.1.4</b></a>, <a href="##rfc.xref.field.te.3">18.4</a></li><li><em>TLS13</em>&nbsp;&nbsp;<a href="##rfc.xref.TLS13.1">3.7</a>, <a href="##rfc.xref.TLS13.2">4.2.2</a>, <a href="##rfc.xref.TLS13.3">9.3.6</a>, <a href="##TLS13"><b>19.1</b></a></li><li>TRACE method&nbsp;&nbsp;<a href="##rfc.xref.TRACE.1">7.6.2</a>, <a href="##rfc.xref.TRACE.2">9.1</a>, <a href="##rfc.extref.t.35">9.2.1</a>, <a href="##rfc.iref.t.3"><b>9.3.8</b></a>, <a href="##rfc.xref.TRACE.3">18.2</a>, <a href="##rfc.xref.TRACE.4">B.3</a></li><li>Trailer Fields&nbsp;&nbsp;<a href="##rfc.section.6.5"><b>6.5</b></a><ul><li>ETag&nbsp;&nbsp;<a href="##rfc.xref.field.etag.1">8.8</a>, <a href="##rfc.section.8.8.3"><b>8.8.3</b></a>, <a href="##rfc.xref.field.etag.2">18.4</a></li></ul></li><li>Trailer header field&nbsp;&nbsp;<a href="##rfc.xref.field.trailer.1">6.5.2</a>, <a href="##rfc.section.6.6.2"><b>6.6.2</b></a>, <a href="##rfc.xref.field.trailer.2">18.4</a></li><li>trailer section&nbsp;&nbsp;<a href="##rfc.section.6.5"><b>6.5</b></a></li><li>trailers&nbsp;&nbsp;<a href="##rfc.section.6.5"><b>6.5</b></a></li><li>transforming proxy&nbsp;&nbsp;<a href="##rfc.section.7.7"><b>7.7</b></a></li><li>transparent proxy&nbsp;&nbsp;<a href="##rfc.iref.t.2"><b>3.7</b></a></li><li>tunnel&nbsp;&nbsp;<a href="##rfc.iref.t.1"><b>3.7</b></a></li></ul></li><li><a id="rfc.index.U" href="##rfc.index.U"><b>U</b></a><ul><li>unsatisfiable range&nbsp;&nbsp;<a href="##rfc.section.14.1.1"><b>14.1.1</b></a></li><li>Upgrade header field&nbsp;&nbsp;<a href="##rfc.xref.field.upgrade.1">3.3</a>, <a href="##rfc.xref.field.upgrade.2">7.6.1</a>, <a href="##rfc.xref.field.upgrade.3">7.6.3</a>, <a href="##rfc.section.7.8"><b>7.8</b></a>, <a href="##rfc.xref.field.upgrade.4">15.2.2</a>, <a href="##rfc.xref.field.upgrade.5">15.5.22</a>, <a href="##rfc.xref.field.upgrade.6">18.4</a></li><li>upstream&nbsp;&nbsp;<a href="##rfc.iref.u.1"><b>3.7</b></a></li><li>URI&nbsp;&nbsp;<a href="##rfc.section.4"><b>4</b></a><ul><li>origin&nbsp;&nbsp;<a href="##rfc.section.4.3.1"><b>4.3.1</b></a></li></ul></li><li><em>URI</em>&nbsp;&nbsp;<a href="##rfc.xref.URI.1">3.1</a>, <a href="##rfc.xref.URI.2">4</a>, <a href="##rfc.xref.URI.3">4.1</a>, <a href="##rfc.xref.URI.4">4.1</a>, <a href="##rfc.xref.URI.5">4.1</a>, <a href="##rfc.xref.URI.6">4.1</a>, <a href="##rfc.xref.URI.7">4.1</a>, <a href="##rfc.xref.URI.8">4.1</a>, <a href="##rfc.xref.URI.9">4.1</a>, <a href="##rfc.xref.URI.10">4.1</a>, <a href="##rfc.xref.URI.11">4.1</a>, <a href="##rfc.xref.URI.12">4.2.1</a>, <a href="##rfc.xref.URI.13">4.2.1</a>, <a href="##rfc.xref.URI.14">4.2.2</a>, <a href="##rfc.xref.URI.15">4.2.2</a>, <a href="##rfc.xref.URI.16">4.2.3</a>, <a href="##rfc.xref.URI.17">4.2.3</a>, <a href="##rfc.xref.URI.18">4.2.3</a>, <a href="##rfc.xref.URI.19">4.2.3</a>, <a href="##rfc.xref.URI.20">4.2.3</a>, <a href="##rfc.xref.URI.21">4.2.3</a>, <a href="##rfc.xref.URI.22">4.2.4</a>, <a href="##rfc.xref.URI.23">4.2.5</a>, <a href="##rfc.xref.URI.24">4.2.5</a>, <a href="##rfc.xref.URI.25">4.3.5</a>, <a href="##rfc.xref.URI.26">7.1</a>, <a href="##rfc.xref.URI.27">8.7</a>, <a href="##rfc.xref.URI.28">9.3.1</a>, <a href="##rfc.xref.URI.29">10.1.3</a>, <a href="##rfc.xref.URI.30">10.1.3</a>, <a href="##rfc.xref.URI.31">10.2.2</a>, <a href="##rfc.xref.URI.32">10.2.2</a>, <a href="##rfc.xref.URI.33">11.2</a>, <a href="##rfc.xref.URI.34">17</a>, <a href="##URI"><b>19.1</b></a>, <a href="##rfc.xref.URI.35">A</a>, <a href="##rfc.xref.URI.36">A</a>, <a href="##rfc.xref.URI.37">A</a>, <a href="##rfc.xref.URI.38">A</a>, <a href="##rfc.xref.URI.39">A</a>, <a href="##rfc.xref.URI.40">A</a>, <a href="##rfc.xref.URI.41">A</a>, <a href="##rfc.xref.URI.42">A</a>, <a href="##rfc.xref.URI.43">A</a>, <a href="##rfc.xref.URI.44">B.2</a><ul><li><em>Section 2.1</em>&nbsp;&nbsp;<a href="##rfc.xref.URI.18">4.2.3</a></li><li><em>Section 2.2</em>&nbsp;&nbsp;<a href="##rfc.xref.URI.19">4.2.3</a></li><li><em>Section 3.2</em>&nbsp;&nbsp;<a href="##rfc.xref.URI.6">4.1</a>, <a href="##rfc.xref.URI.37">A</a></li><li><em>Section 3.2.1</em>&nbsp;&nbsp;<a href="##rfc.xref.URI.22">4.2.4</a></li><li><em>Section 3.2.2</em>&nbsp;&nbsp;<a href="##rfc.xref.URI.7">4.1</a>, <a href="##rfc.xref.URI.12">4.2.1</a>, <a href="##rfc.xref.URI.14">4.2.2</a>, <a href="##rfc.xref.URI.25">4.3.5</a>, <a href="##rfc.xref.URI.43">A</a></li><li><em>Section 3.2.3</em>&nbsp;&nbsp;<a href="##rfc.xref.URI.8">4.1</a>, <a href="##rfc.xref.URI.13">4.2.1</a>, <a href="##rfc.xref.URI.15">4.2.2</a>, <a href="##rfc.xref.URI.39">A</a></li><li><em>Section 3.3</em>&nbsp;&nbsp;<a href="##rfc.xref.URI.9">4.1</a>, <a href="##rfc.xref.URI.10">4.1</a>, <a href="##rfc.xref.URI.38">A</a>, <a href="##rfc.xref.URI.42">A</a></li><li><em>Section 3.4</em>&nbsp;&nbsp;<a href="##rfc.xref.URI.11">4.1</a>, <a href="##rfc.xref.URI.40">A</a></li><li><em>Section 3.5</em>&nbsp;&nbsp;<a href="##rfc.xref.URI.23">4.2.5</a>, <a href="##rfc.xref.URI.26">7.1</a></li><li><em>Section 4.1</em>&nbsp;&nbsp;<a href="##rfc.xref.URI.3">4.1</a>, <a href="##rfc.xref.URI.35">A</a></li><li><em>Section 4.2</em>&nbsp;&nbsp;<a href="##rfc.xref.URI.5">4.1</a>, <a href="##rfc.xref.URI.31">10.2.2</a>, <a href="##rfc.xref.URI.41">A</a></li><li><em>Section 4.3</em>&nbsp;&nbsp;<a href="##rfc.xref.URI.4">4.1</a>, <a href="##rfc.xref.URI.24">4.2.5</a>, <a href="##rfc.xref.URI.36">A</a></li><li><em>Section 5</em>&nbsp;&nbsp;<a href="##rfc.xref.URI.27">8.7</a>, <a href="##rfc.xref.URI.30">10.1.3</a>, <a href="##rfc.xref.URI.32">10.2.2</a></li><li><em>Section 6</em>&nbsp;&nbsp;<a href="##rfc.xref.URI.16">4.2.3</a></li><li><em>Section 6.2</em>&nbsp;&nbsp;<a href="##rfc.xref.URI.21">4.2.3</a></li><li><em>Section 6.2.3</em>&nbsp;&nbsp;<a href="##rfc.xref.URI.17">4.2.3</a></li><li><em>Section 7</em>&nbsp;&nbsp;<a href="##rfc.xref.URI.34">17</a></li></ul></li><li>URI reference&nbsp;&nbsp;<a href="##rfc.section.4.1"><b>4.1</b></a></li><li>URI scheme&nbsp;&nbsp;<ul><li>http&nbsp;&nbsp;<a href="##rfc.section.4.2.1"><b>4.2.1</b></a></li><li>https&nbsp;&nbsp;<a href="##rfc.section.4.2.2"><b>4.2.2</b></a></li></ul></li><li><em>USASCII</em>&nbsp;&nbsp;<a href="##rfc.xref.USASCII.1">5.5</a>, <a href="##USASCII"><b>19.1</b></a></li><li>user agent&nbsp;&nbsp;<a href="##rfc.section.3.5"><b>3.5</b></a></li><li>User-Agent header field&nbsp;&nbsp;<a href="##rfc.section.10.1.5"><b>10.1.5</b></a>, <a href="##rfc.xref.field.user-agent.1">10.2.4</a>, <a href="##rfc.xref.field.user-agent.2">17.12</a>, <a href="##rfc.xref.field.user-agent.3">18.4</a></li></ul></li><li><a id="rfc.index.V" href="##rfc.index.V"><b>V</b></a><ul><li>validator&nbsp;&nbsp;<a href="##rfc.section.8.8"><b>8.8</b></a><ul><li>strong&nbsp;&nbsp;<a href="##rfc.section.8.8.1"><b>8.8.1</b></a></li><li>weak&nbsp;&nbsp;<a href="##rfc.section.8.8.1"><b>8.8.1</b></a></li></ul></li><li>Vary header field&nbsp;&nbsp;<a href="##rfc.xref.field.vary.1">12.1</a>, <a href="##rfc.section.12.5.5"><b>12.5.5</b></a>, <a href="##rfc.xref.field.vary.2">16.3.2</a>, <a href="##rfc.xref.field.vary.3">18.4</a>, <a href="##rfc.xref.field.vary.4">18.4</a>, <a href="##rfc.xref.field.vary.5">18.4</a>, <a href="##rfc.xref.field.vary.6">B.3</a></li><li>Via header field&nbsp;&nbsp;<a href="##rfc.xref.field.via.1">6.2</a>, <a href="##rfc.section.7.6.3"><b>7.6.3</b></a>, <a href="##rfc.xref.field.via.2">9.3.8</a>, <a href="##rfc.xref.field.via.3">17.12</a>, <a href="##rfc.xref.field.via.4">18.4</a>, <a href="##rfc.xref.field.via.5">B.2</a></li></ul></li><li><a id="rfc.index.W" href="##rfc.index.W"><b>W</b></a><ul><li><em>WEBDAV</em>&nbsp;&nbsp;<a href="##rfc.xref.WEBDAV.1">8.8</a>, <a href="##rfc.xref.WEBDAV.2">13.1</a>, <a href="##WEBDAV"><b>19.2</b></a>, <a href="##rfc.xref.WEBDAV.3">B.3</a><ul><li><em>Section 10.4</em>&nbsp;&nbsp;<a href="##rfc.xref.WEBDAV.2">13.1</a></li><li><em>Section 11.2</em>&nbsp;&nbsp;<a href="##rfc.xref.WEBDAV.3">B.3</a></li></ul></li><li><em>Welch</em>&nbsp;&nbsp;<a href="##rfc.xref.Welch.1">8.4.1.1</a>, <a href="##rfc.xref.Welch.2">18.6</a>, <a href="##Welch"><b>19.1</b></a></li><li>WWW-Authenticate header field&nbsp;&nbsp;<a href="##rfc.section.11.6.1"><b>11.6.1</b></a>, <a href="##rfc.xref.field.www-authenticate.1">11.7.1</a>, <a href="##rfc.xref.field.www-authenticate.2">15.5.2</a>, <a href="##rfc.xref.field.www-authenticate.3">18.4</a></li></ul></li><li><a id="rfc.index.X" href="##rfc.index.X"><b>X</b></a><ul><li>x-compress (content coding)&nbsp;&nbsp;<a href="##rfc.section.8.4.1"><b>8.4.1</b></a></li><li>x-gzip (content coding)&nbsp;&nbsp;<a href="##rfc.section.8.4.1"><b>8.4.1</b></a></li></ul></li></ul></div></section><section id="rfc.authors" class="avoidbreakinside"><h2><a href="##rfc.authors">Authors' Addresses</a></h2><address><b>Roy T. Fielding</b> (editor)<br>Adobe<br>345 Park Ave<br>San Jose, CA 95110<br>United States of America<br>Email: fielding@gbiv.com<br>URI: <a href="https://roy.gbiv.com/">https://roy.gbiv.com/</a></address><address><b>Mark Nottingham</b> (editor)<br>Fastly<br>Prahran<br>Australia<br>Email: mnot@mnot.net<br>URI: <a href="https://www.mnot.net/">https://www.mnot.net/</a></address><address><b>Julian Reschke</b> (editor)<br>greenbytes GmbH<br>Hafenweg 16<br>48155 Münster<br>Germany<br>Email: julian.reschke@greenbytes.de<br>URI: <a href="https://greenbytes.de/tech/webdav/">https://greenbytes.de/tech/webdav/</a></address></section></div></div></div></body></html>